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Crystal structures of two dysprosium–aluminium–sodium [3.3.1] metallacryptates that form two-dimensional sheets

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aDepartment of Chemistry and Biochemistry, Shippensburg University, Shippensburg, PA 17257, USA, and bDepartment of Chemistry, Purdue University, West Lafayette, IN 47907, USA
*Correspondence e-mail: cmzaleski@ship.edu

Edited by S. Parkin, University of Kentucky, USA (Received 19 June 2020; accepted 22 July 2020; online 31 July 2020)

The two [3.3.1] metallacryptate complexes, namely, poly[[μ3-acetato-hexa­kis­(μ-N,N-di­methyl­formamide)­bis­(N,N-di­methyl­formamide)bis­[salicyl­hydroxi­mato(2−)]hepta­kis­[salicyl­hydrox­im­ato(3−)]hexa­aluminium(III)dysprosium(III)penta­sodium(I)] N,N-di­methyl­formamide tetra­solvate monohydrate], [DyAl6Na5(OAc)(Hshi)2(shi)7(DMF)8]·4DMF·H2O or {[DyAl6Na5(C7H5NO3)2(C7H4NO3)7(C2H3O2)(C3H7NO)8]·4C3H7NO·H2O}n, 1, and poly[[di-μ4-acetato-nona­kis­(μ-N,N-di­methyl­form­amide)­octa­kis­(N,N-di­methyl­formamide)tetra­kis­[sali­cyl­hydroximato(2-)]tetra­deca­kis­[salicyl­hydroximato(3−)]dodeca­aluminium(III)didysprosium(III)deca­sodium(I)] N,N-di­methyl­form­amide 6.335-solvate], [DyAl6Na5(OAc)(Hshi)2(shi)7(DMF)8.5]2·6.335DMF or {[Dy2Al12Na10(C7H5NO3)4(C7H4NO3)14(C2H3O2)2(C3H7NO)17]·6.335C3H7NO}n, 2, where shi3− is salicyl­hydroximate and DMF is N,N-di­methyl­formamide, both consist of an aluminium-based metallacryptand. In 1 and 2, the metallacryptand encapsulates a dysprosium(III) ion in the central cavity, and the resulting metallacryptates are connected to each other via sodium-DMF linkages to generate a two-dimensional sheet. The metallacryptates of 1 and 2 are the three-dimensional analogues of metallacrowns as the metallacryptates contain a metal–nitro­gen–oxygen cyclic repeat unit throughout the complexes. For 1 the building block of the two-dimensional sheet is comprised of only one type of metallacryptate, which is connected to four neighboring metallacryptates via four sodium–DMF linkages. In 2, the building block is a dimeric unit of two metallacryptates. Each dimeric metallacryptate unit is connected to four other dimeric units via six sodium–DMF linkages. The two metallacryptates of each dimeric unit can be considered enanti­omers of each other. In both 1 and 2, chirality is imparted to the metallacryptate due to the Λ and Δ propeller configurations of the four octa­hedral aluminium ions of the metallacryptand shell.

1. Chemical context

Metallacrowns, first recognized in 1989 by Pecoraro (Pecoraro, 1989[Pecoraro, V. L. (1989). Inorg. Chim. Acta, 155, 171-173.]), belong to a class of mol­ecules known as metalla­macrocycles that also include, but are not limited to, metalla­helices and metallahelicates (Kramer et al., 1993[Kramer, R., Lehn, J.-M. & Marquis-Rigault, M. (1993). Proc. Natl Acad. Sci. USA, 90, 5394-5398.]; Piguet et al., 1997[Piguet, C., Bernardinelli, G. & Hopfgartner, G. (1997). Chem. Rev. 97, 2005-2062.]), metallacryptands and metallacryptates (Ma et al., 1980[Ma, M. S., Angelici, R. J., Powell, D. & Jacobson, R. A. (1980). Inorg. Chem. 19, 3121-3128.]; Saalfrank et al., 1988[Saalfrank, R. W., Stark, A., Peters, K. & von Schnering, H. G. (1988). Angew. Chem. Int. Ed. Engl. 27, 851-853.]; Zaleski et al., 2005[Zaleski, C. M., Depperman, E. C., Dendrinou-Samara, C., Alexiou, M., Kampf, J. W., Kessissoglou, D. P., Kirk, M. L. & Pecoraro, V. L. (2005). J. Am. Chem. Soc. 127, 12862-12872.]), and metallic wheels and rings (Taft et al., 1994[Taft, K. L., Delfs, C. D., Papaefthymiou, G. C., Foner, S., Gatteschi, D. & Lippard, S. L. (1994). J. Am. Chem. Soc. 116, 823-832.]; Müller et al., 1995[Müller, A., Krickemeyer, E., Meyer, J., Bögge, H., Peters, F., Plass, W., Diemann, E., Dillinger, S., Nonnenbruch, F., Randerath, M. & Menke, C. (1995). Angew. Chem. Int. Ed. Engl. 34, 2122-2124.]; Murrie et al., 1999[Murrie, M., Parsons, S., Winpenny, R. E. P., Atkinson, I. M. & Benelli, C. (1999). Chem. Commun. pp. 285-286.]). The archetypal metallacrown (MC) framework is based on a cyclic metal–nitro­gen–oxygen repeat unit similar to the crown ether cyclic carbon–carbon–oxygen repeat unit. Since their inception metallacrowns have been considered not only structural analogues of crown ethers, but also functional analogues, as metallacrowns typically bind a metal ion in the central cavity. In addition, as cryptands can be considered the three-dimensional analogues of crown ethers (Lehn, 1978[Lehn, J.-M. (1978). Acc. Chem. Res. 11, 49-57.]), metallacryptands with an M–N–O repeat unit (Fig. 1[link]) can be considered the three-dimensional analogues of metallacrowns (Lutter et al., 2018[Lutter, J. C., Eliseeva, S. V., Kampf, J. W., Petoud, S. & Pecoraro, V. L. (2018). Chem. Eur. J. 24, 10773-10783.]). Metallacrown and metallacryptate chemistry has mainly focused on incorporating transition metal ions in the ring repeating unit as these ions impart inter­esting magnetic and spectroscopic properties. The use of main-group metal ions has mainly been limited to gallium (Lah et al., 1993[Lah, M. S., Gibney, B. R., Tierney, D. L., Penner-Hahn, J. E. & Pecoraro, V. L. (1993). J. Am. Chem. Soc. 115, 5857-5858.]; Jiang et al., 2019[Jiang, X.-F., Chen, M.-G., Tong, J.-P. & Shao, F. (2019). New J. Chem. 43, 8704-8710.]; Athanasopoulou et al., 2019[Athanasopoulou, A. A., Baldoví, J., Carrella, L. M. & Rentschler, E. (2019). Dalton Trans. 48, 15381-15385.]), tellurium (Kübel et al., 2010[Kübel, J., Elder, P. J. W., Jenkins, H. A. & Vargas-Baca, I. (2010). Dalton Trans. 39, 11126-11128.]; Ho et al., 2016[Ho, P. C., Szydlowski, P., Sinclair, J., Elder, P. J. W., Kübel, J., Gendy, C., Lee, L. M., Jenkins, H., Britten, J. F., Morim, D. R. & Vargas-Baca, I. (2016). Nat. Commun. 7, 11299.]; Ho et al., 2017[Ho, P. C., Rafique, J., Lee, J., Lee, L. M., Jenkins, H. A., Britten, J. F., Braga, A. L. & Vargas-Baca, I. (2017). Dalton Trans. 46, 6570-6579.]; Ho et al., 2019[Ho, P. C., Bui, R., Cevallos, A., Sequeira, S., Britten, J. F. & Vargas-Baca, I. (2019). Dalton Trans. 48, 4879-4886.]; Wang et al., 2019[Wang, J., Ho, P. C., Britten, J. F., Tomassetti, V. & Vargas-Baca, I. (2019). New J. Chem. 43, 12601-12608.]), and tin (Zhao et al., 2010a[Zhao, X.-J., Li, D.-C., Zhang, Q.-F., Wang, D.-Q. & Dou, J.-M. (2010a). Inorg. Chem. Commun. 13, 346-349.]; Zhao et al., 2010b[Zhao, X.-J., Zhang, Q.-F., Li, D.-C., Dou, J.-M. & Wang, D.-Q. (2010b). J. Organomet. Chem. 695, 2134-2141.]). Recently though, gallium-based metallacrowns and metallacryptates have gained renewed inter­est as potential optical imaging agents (Chow et al., 2016[Chow, C. Y., Eliseeva, S. V., Trivedi, E. R., Nguyen, T. N., Kampf, J. W., Petoud, S. & Pecoraro, V. L. (2016). J. Am. Chem. Soc. 138, 5100-5109.]; Nguyen et al., 2018[Nguyen, T. N., Chow, C. Y., Eliseeva, S. V., Trivedi, E. R., Kampf, J. W., Martinić, I., Petoud, S. & Pecoraro, V. L. (2018). Chem. Eur. J. 24, 1031-1035.]; Lutter et al., 2018[Lutter, J. C., Eliseeva, S. V., Kampf, J. W., Petoud, S. & Pecoraro, V. L. (2018). Chem. Eur. J. 24, 10773-10783.], 2019[Lutter, J. C., Lopez Bermudez, B. A., Nguyen, T. N., Kampf, J. W. & Pecoraro, V. L. (2019). J. Inorg. Biochem. 192, 119-125.], 2020[Lutter, J. C., Eliseeva, S. V., Collet, G., Martinić, I., Kampf, J. W., Schneider, B. L., Carichner, A., Sobilo, J., Lerondel, S., Petoud, S. & Pecoraro, V. L. (2020). Chem. Eur. J. 26, 1274-1277.]).

[Scheme 1]
[Scheme 2]
[Figure 1]
Figure 1
Schematic comparing the [3.3.1] metallacryptand of 1 and 2 to a [3.3.1] cryptand.

For many metallacrowns and metallacryptates, a common ligand is salicyl­hydroxamic acid (H3shi), which can be triply deprotonated to produce salicyl­hydroximate (shi3−), and when this ligand set is combined with transition-metal ions in a 3+ oxidation state, a plethora of structural arrangements is possible (Mezei et al., 2007[Mezei, G., Zaleski, C. M. & Pecoraro, V. L. (2007). Chem. Rev. 107, 4933-5003.]). In addition, one hallmark of MC chemistry is the ability to easily substitute components of the complexes and still generate similar structures. For instance, in a series of LnIII[12-MCshi-4] structures with ring manganese(III) ions, the MnIII ions can be substituted with gallium(III) to generate comparable 12-MC-4 structures (Chow et al., 2016[Chow, C. Y., Eliseeva, S. V., Trivedi, E. R., Nguyen, T. N., Kampf, J. W., Petoud, S. & Pecoraro, V. L. (2016). J. Am. Chem. Soc. 138, 5100-5109.]). Thus, a logical extension would be to include aluminum(III) into the MC ring, as this would maintain the charge balance of the overall complexes. However, to date aluminum has not been used to generate either an archetypal metallacrown or metallacryptand complex. Herein we present two [3.3.1] metallacryptate complexes [DyAl6Na5(OAc)(Hshi)2(shi)7(DMF)8]·H2O·4DMF, 1, and [DyAl6Na5(OAc)(Hshi)2(shi)7(DMF)8.5]2·6.335DMF, 2, where DMF is N,N-di­methyl­formamide. Complexes 1 and 2 represent the first metallacrowns or metallacryptates to contain aluminum as a ring metal. Future studies will focus on the luminescent and magnetic properties of these and related compounds, as the aluminum ions do not quench the luminescence of the LnIII ions and the diamagnetic nature of the aluminum ions generates a potential single-ion magnet with the paramagnetic lanthanide ion at the center of the mol­ecule.

2. Structural commentary

The two-dimensional structures of the metallacryptates of 1 and 2 are very similar; however, there are key structural differences. Both compounds are synthesized in the same manner with a 1:16:16:32 ratio between the reactants, Dy(NO3)3: Al(OAc)2OH: H3shi: NaOAc; however, the crystals have different space groups (Cc for 1 and Pc for 2). At this time it is not clear what factors induce the crystallization of 1 or 2. In 1 there is only one type of metallacryptate in the two-dimensional network (Fig. 2[link]), while in 2 there are two different but very similar metallacryptates. Compound 2 can be considered a dimeric unit of two metallacryptates (Fig. 3[link]). When it is necessary to distinguish the two metallacryptates for 2, the designations 2A (associated with Dy1) and 2B (associated with Dy2) will be used. Each metallacryptate is connected to its nearest neighbors to generate a two-dimensional sheet (Figs. 4[link] and 5[link]), which will be described in greater detail below. The individual repeat unit of the two-dimensional network is akin to a metallacrown but can more accurately be described as a metallacryptate. As a cryptand is considered a three-dimensional analogue to a crown ether, the aluminum-based shells of 1 and 2 can be considered as three-dimensional metallacrowns, thus as metallacryptands (Fig. 6[link]a). Furthermore, upon binding a metal ion in the central cavity, a cryptand is transformed into a cryptate. Compounds 1 and 2 bind a DyIII ion in the central cavity to produce a metallacryptate (Figs. 6[link]b and 7[link]). Each metallacryptate unit consists of one DyIII ion, six AlIII ions, and five Na+ ions to provide a total charge of 26+, which is counterbalanced by one acetate, seven triply deprotonated shi3− ligands, and two Hshi2− ligands with a total charge of 26-. For the Hshi2− ligands, the phenolate and oxime oxygen atoms are deprotonated, while the oxime nitro­gen atom remains protonated and does not coordinate to any metal ions. Beyond overall mol­ecular charge considerations, the oxidation state assignments of the DyIII and AlIII ions are also confirmed by bond-valence-sum (BVS) values (Table 1[link]) (Brese & O'Keeffe, 1991[Brese, N. E. & O'Keeffe, M. (1991). Acta Cryst. B47, 192-197.]; Trzesowska et al., 2004[Trzesowska, A., Kruszynski, R. & Bartczak, T. J. (2004). Acta Cryst. B60, 174-178.]). The Na+ ions do not participate in the metallacryptate structure, but serve to connect neighboring mol­ecules in a two-dimensional sheet.

Table 1
Average bond length (Å) and bond-valence-sum (BVS) values (v.u.) used to support assigned oxidation states of the dysprosium and aluminium ions of 1 and 2

  Avg. bond length BVS value Assigned oxidation state
1      
Dy1 2.420 3.02 3+
Al1 1.836 3.09 3+
Al2 1.900 3.08 3+
Al3 1.926 3.08 3+
Al4 1.907 3.00 3+
Al5 1.911 2.96 3+
Al6 1.841 3.03 3+
       
2      
Dy1 2.426 3.00 3+
Dy2 2.431 2.96 3+
Al1 1.912 2.97 3+
Al2 1.909 2.98 3+
Al3 1.845 3.01 3+
Al4 1.840 3.05 3+
Al5 1.911 2.99 3+
Al6 1.919 3.14 3+
Al7 1.913 2.98 3+
Al8 1.851 2.97 3+
Al9 1.924 309 3+
Al10 1.842 3.03 3+
Al11 1.907 3.00 3+
Al12 1.910 2.97 3+
[Figure 2]
Figure 2
The single-crystal X-ray structure of [DyAl6Na5(OAc)(Hshi)2(shi)7(DMF)8]·H2O·4DMF, 1, including connections to neighboring sodium ions [symmetry codes: (i) x − [{1\over 2}], y − [{1\over 2}], z; (ii) x + [{1\over 2}], y + [{1\over 2}], z; (iii) x − [{1\over 2}], y + [{1\over 2}], z; (iv) x + [{1\over 2}], y − [{1\over 2}], z]. The displacement ellipsoids are at the 50% probability level. For clarity, labels have only been added to the metal ions and some of the carbon, nitro­gen, and oxygen atoms. In addition, the solvent water and DMF mol­ecules, the hydrogen atoms, and disorder have been omitted. Color scheme: green – Al, yellow – Dy, light blue – Na, red – oxygen, dark blue – nitro­gen, and gray – carbon. All figures were generated with the program Mercury (Macrae et al., 2020[Macrae, C. F., Sovago, I., Cottrell, S. J., Galek, P. T. A., McCabe, P., Pidcock, E., Platings, M., Shields, G. P., Stevens, J. S., Towler, M. & Wood, P. A. (2020). J. Appl. Cryst. 53, 226-235.]).
[Figure 3]
Figure 3
The single-crystal X-ray structure of [DyAl6Na5(OAc)(Hshi)2(shi)7(DMF)8.5]2·6.335DMF, 2, including connections to neighboring sodium ions [symmetry codes: (i) x, y − 1, z; (ii) x, y + 1, z; (iii) x + 1, y, z; (iv) x − 1, y, z]. The displacement ellipsoids are at the 50% probability level. For clarity, labels have only been added to the metal ions and some of the carbon, nitro­gen, and oxygen atoms. In addition, the solvent DMF mol­ecules, the hydrogen atoms, and disorder have been omitted. See Fig. 2[link] for additional display details.
[Figure 4]
Figure 4
The two-dimensional network of 1 generated by the bridging Na+ ions between the metallacryptate units. Each metallacryptate is connected to four adjacent metallacryptates. The view is along the c axis of the unit cell. See Fig. 2[link] for additional display details.
[Figure 5]
Figure 5
The two-dimensional network of 2 generated by the bridging Na+ ions between the dimeric metallacryptate units. Each metallacryptate is connected to four adjacent dimeric metallacryptates. The view is along the c axis of the unit cell. See Fig. 2[link] for additional display details.
[Figure 6]
Figure 6
The (a) metallacryptand and (b) metallacryptate views of 1 highlighting the [3.3.1] connectivity between the metal ions. See Fig. 2[link] for additional display details.
[Figure 7]
Figure 7
The metallacryptate views of (a) 2A and (b) 2B demonstrating that the two metallacryptates of the dimeric unit are enanti­omers. See Fig. 2[link] for additional display details.

The metallacryptand structure can best be described as a [3.3.1] complex based on the similar [3.3.1] cryptand (Krakowiak et al., 1993[Krakowiak, K. E., Krakowiak, P. A. & Bradshaw, J. S. (1993). Tetrahedron Lett. 34, 777-778.]), where the numbers indicate the number of oxygen atoms in each linkage of the metallacryptand (Fig. 1[link]). In the metallacryptand, two AlIII ions serve as the anchor points of the structure, akin to the nitro­gen atoms of a cryptand (Fig. 1[link] & 6). There are two linkages between the anchor AlIII ions consisting of an O–N–Al–O–N–Al–O–N pattern and one shorter linkage with an N–O pattern, thus the [3.3.1] nomenclature. This metal–nitro­gen–oxygen repeating pattern is that of the archetypal metallacrown; thus, these structures can be considered three-dimensional metallacrowns. The repeating units of the metallacryptand strands are generated from the seven shi3− ligands with the hydroximate group of the ligand providing the N–O linkage. The oxime oxygen atoms of the linkages bind a DyIII ion in the central cavity to generate the metallacryptate. The two remaining Hshi2− ligands are not involved in the metallacryptand structure but instead bind on the periphery of the structure and provide two additional oxime oxygen atoms to complete the coordination of the DyIII ion and serve as bridging ligands to the AlIII ions; however, the Hshi2− ligands do not provide an N–O repeat unit in the structure between the metal ions as the nitro­gen atoms remain protonated, thus negating their participation in the metallacryptand linkages.

Each DyIII is nine-coordinate with nine oxime oxygen atoms providing the coordination sphere. As stated above, seven of the oxime oxygen atoms are provided by the seven shi3− ligands, which participate in the formation of the metallacryptand and form bridges to all six AlIII ions. The two remaining oxime oxygen atoms are provided by the two Hshi2− ligands. Each oxime oxygen atom of the Hshi2− ligands also serves as a one atom μ3-bridge between the DyIII ion, one AlIII ion, and one Na+ ion. A SHAPE (SHAPE 2.1; Llunell et al., 2013[Llunell, M., Casanova, D., Cirera, J., Alemany, P. & Alvarez, S. (2013). SHAPE2.1. Barcelona, Spain.]) analysis of the DyIII geometry (Table 2[link]; Fig. 8[link]) yields the lowest continuous shape measure (CShM) value for a spherical capped square anti­prism (1.212 for 1, 1.305 for 2A, and 1.225 for 2B); however, comparable CShM values are obtained for a spherical tricapped trigonal prism (1.370 for 1, 1.640 for 2A, and 1.521 for 2B) and muffin (1.728 for 1, 1.813 for 2A, and 1.803 for 2B) geometries (Llunell et al., 2013[Llunell, M., Casanova, D., Cirera, J., Alemany, P. & Alvarez, S. (2013). SHAPE2.1. Barcelona, Spain.]; Pinsky & Avnir, 1998[Pinsky, M. & Avnir, D. (1998). Inorg. Chem. 37, 5575-5582.]; Cirera et al., 2005[Cirera, J., Ruiz, E. & Alvarez, S. (2005). Organometallics, 24, 1556-1562.]). A muffin geometry can best be described as a configuration with a trigonal base, a penta­gonal equatorial plane, and a single point vertex (Ruiz-Martínez et al., 2008[Ruiz-Martínez, A., Casanova, D. & Alvarez, S. (2008). Chem. Eur. J. 14, 1291-1303.]).

Table 2
Continuous shapes measures (CShM) values for the geometry about the nine-coordinate central DyIII ions of 1 and 2

Shape 1 2  
  Dy1 Dy1 Dy2
Enneagon (D9h) 35.902 35.894 36.224
Octa­gonal pyramid (C8v) 22.494 22.501 22.625
Heptagonal bipyramid (D7h) 18.198 18.199 18.434
Johnson triangular cupola (J3; C3v) 14.832 15.047 15.010
Capped cube (J8; C4v) 10.814 10.767 10.982
Spherical-relaxed capped cube (C4v) 8.894 8.825 9.098
Capped square anti­prism (J10; C4v) 2.279 2.416 2.331
Spherical capped square anti­prism (C4v) 1.212 1.305 1.225
Tricapped trigonal prism (J51; D3h) 3.326 3.694 3.656
Spherical tricapped trigonal prism (D3h) 1.370 1.640 1.521
Tridiminished icosa­hedron (J63; C3v) 10.378 10.358 10.232
Hula-hoop (C2v) 11.630 11.649 11.491
Muffin (Cs) 1.728 1.813 1.803
[Figure 8]
Figure 8
Polyhedral views of the coordination geometry for Dy1 of 1: (a) spherical capped square anti­prism; (b) spherical tricapped trigonal prism; (c) muffin. See Fig. 2[link] for additional display details.

There are six AlIII ions per metallacryptate; two of the AlIII ions are five coordinate while the remaining four are six coordinate (Figs. 9[link]–11[link][link]). For the five-coordinate AlIII ions, the geometries are either trigonal bipyramidal or spherical square pyramidal. For Al1 and Al6 of 1, the CShM values (Table 3[link]) slightly favor a trigonal–bipyramid geometry over a spherical square pyramid (1.533 vs 1.880 for Al1 and 1.220 vs 1.797 for Al6). For 2, Al3 is clearly trigonal pyramidal with a CShM value below 1.0 (CShM = 0.874), where a value less than 1.0 typically indicates only minor distortions from the ideal shape (Cirera et al., 2005[Cirera, J., Ruiz, E. & Alvarez, S. (2005). Organometallics, 24, 1556-1562.]). However, the remaining AlIII ions, Al4, Al8, and Al10, are spherical square pyramidal with CShM values of 1.168, 0.540, and 1.324, respectively, though for Al10 the CShM value for a trigonal bipyramid is 1.759, indicating the geometry is between the two ideal scenarios. For all of the five-coordinate AlIII ions of 1 and 2, the coordination environment is composed of two chelate rings, a five-membered ring formed from the oxime oxygen and carboxyl­ate oxygen atoms of one shi3− and a six-membered ring formed from the oxime nitro­gen and phenolate oxygen atoms of a second shi3− ligand. The coordination is completed by a phenolate oxygen atom of a Hshi2− ligand. For the six-coordinate AlIII ions (Al2–Al5 for 1 and Al1, Al2, Al5, Al6, Al7, Al9, Al11, Al12 for 2) the geometries are clearly octa­hedral with all CShM values below 2.0 (Table 4[link]). All of the six-coordinate AlIII ions adopt a propeller configuration with two Δ and two Λ stereoconfigurations per metallacryptate. For Al2 of 1, the Δ stereoconfiguration is composed of three cis chelate rings: one five-membered chelate ring formed by the oxime and carboxyl­ate oxygen atoms of a shi3− ligand, one five-membered chelate ring formed by the oxime and carboxyl­ate oxygen atoms of an Hshi2− ligand, and a six-membered chelate ring formed from the oxime nitro­gen and phenolate oxygen atoms of another shi3− ligand. For Al4, the Δ stereoconfiguration has three chelate rings: two five-membered chelate rings and one six-membered chelate ring from three different shi3− ligands. For Al3, the Λ configuration consists of three cis chelate rings: one five-membered ring and two six-membered rings from three shi3− ligands. For Al5, the Λ stereoconfiguration is formed by cis five- and six-membered chelate rings of two shi3− ligands and two cis oxygen atoms, a μ-carboxyl­ate oxygen atom of an acetate anion and the oxime oxygen atom of an Hshi2− ligand. The μ-carboxyl­ate atom of the acetate anion connects Al5 to Na5. For 2A, the Δ and Λ AlIII ions (Δ: Al1 and Al5; Λ: Al2 and Al6) have the same coordination environment as their AlIII ions counterparts in 1; however, for 2B, the Δ and Λ environments are reversed relative to 1 and 2A (Figs. 9[link]–11[link][link]). The Λ stereoconfiguration of Al7 has three cis chelate rings: one five-membered ring of a shi3− ligand, one five-membered ring of an Hshi2− ligand, and one six-membered ring of a shi3− ligand. The Λ stereoconfiguration of Al12 has cis chelate rings from three shi3− ligands (two five-membered rings and one six-membered ring), while the Δ stereoconfiguration of Al9 has cis chelate rings from three shi3− ligands (one five-membered ring and two six-membered rings). For Al11, the Δ stereoconfiguration is completed by cis five- and six-membered chelate rings of two shi3− ligands and two cis oxygen atoms, a μ-carboxyl­ate oxygen atom of an acetate anion and the oxime oxygen atom of an Hshi2− ligand. Thus, the metallacryptand portions of 2A and 2B can be considered enanti­omers (Fig. 7[link]).

Table 3
Continuous shapes measures (CShM) values for the geometry about the five-coordinate AlIII ions of 1 and 2

Shape Penta­gon (D5h) Vacant octa­hedron (C4v) Trigonal bipyramid (D3h) Spherical square pyramid (C4v) Johnson trigonal bipyramid (J12; D3h)
1          
Al1 30.916 3.299 1.533 1.880 3.644
Al6 32.803 3.560 1.220 1.797 3.677
           
2          
Al3 33.414 4.086 0.874 2.325 3.263
Al4 32.043 2.315 2.109 1.168 4.370
Al8 31.548 2.102 3.184 0.540 5.340
Al10 31.615 2.912 1.759 1.324 4.191

Table 4
Continuous shapes measures (CShM) values for the geometry about the six-coordinate AlIII ions of 1 and 2

Shape Hexagon (D6h) Penta­gonal pyramid (C5v) Octa­hedron (Oh) Trigonal prism (D3h) Johnson penta­gonal pyramid (J2; C5v)
1          
Al2 32.362 22.306 1.596 10.843 26.394
Al3 32.252 22.678 1.787 8.768 26.344
Al4 31.297 21.640 1.619 10.460 25.730
Al5 33.212 25.069 0.880 13.274 28.854
           
2          
Al1 31.858 22.338 1.532 10.500 26.606
Al2 33.006 24.175 1.027 13.226 27.967
Al5 32.221 22.454 1.569 10.493 26.647
Al6 32.099 23.135 1.305 10.051 27.495
Al7 32.157 21.844 1.748 9.965 26.103
Al9 32.121 23.409 1.309 10.126 27.310
Al11 32.403 24.802 1.027 12.116 28.736
Al12 32.110 22.252 1.547 10.726 26.505
[Figure 9]
Figure 9
Coordination geometries for the AlIII ions of 1: (a) Al1 – trigonal pyramidal; (b) Al2 – octa­hedral, Δ; (c) Al3 – octa­hedral, Λ; (d) Al4 – octa­hedral, Δ; (e) Al5 – octa­hedral, Λ; (f) Al6 – trigonal pyramidal. See Fig. 2[link] for additional display details.
[Figure 10]
Figure 10
Coordination geometries for the AlIII ions of 2A: (a) Al1 – octa­hedral, Δ; (b) Al2 – octa­hedral, Λ; (c) Al3 – trigonal pyramidal; (d) Al4 – spherical square pyramidal; (e) Al5 – octa­hedral, Δ; (f) Al6 – octa­hedral, Λ. See Fig. 2[link] for additional display details.
[Figure 11]
Figure 11
Coordination geometries for the AlIII ions of 2B: (a) Al7 – octa­hedral, Λ; (b) Al8 – spherical square pyramidal; (c) Al9 – octa­hedral, Δ; (d) Al10 – spherical square pyramidal; (e) Al11 – octa­hedral, Δ; (f) Al12 – octa­hedral, Λ. See Fig. 2[link] for additional display details.

The Na+ ions of 1 and 2 are either five- or six-coordinate. The SHAPE analysis indicates that the geometries are severely distorted in each case with the CShM values typically above 3.0, which can be considered an upper threshold value where below 3.0 is still considered an adequate description of the geometry though there are significant distortions (Cirera et al., 2005[Cirera, J., Ruiz, E. & Alvarez, S. (2005). Organometallics, 24, 1556-1562.]). For the five-coordinate Na+ ions (Na4 of 1, and Na4 and Na7 of 2), Na4 of 1 can best be described as a spherical square pyramid, while for Na4 and Na7 of 2, the geometry can best be described as trigonal bipyramidal (Table 5[link]). The coordination environment of each Na+ ion is the same and consists of a five-membered chelate ring from the carboxyl­ate oxygen and oxime oxygen atoms of an Hshi2− ligand, an oxime oxygen atom of a different Hshi2− ligand, a carboxyl­ate oxygen atom of an acetate ion, and a carbonyl oxygen atom of a DMF mol­ecule. In addition to the AlIII propeller stereoconfigurations described above, the differences between 1 and 2 stem from the acetate anions and DMF mol­ecules of the five-coordinate Na+ ions. In 1, the acetate anion forms a three-atom bridge to a neighboring Na+ ion (Na5) and the acetate anion does not connect to a neighboring metallacryptate. In 2, the acetate anions not only form a three-atom bridge to a neighboring Na+ of the same metallacryptate (Na4 to Na5 of 2A and Na7 to Na6 of 2B), but also form μ-oxygen bridges to an Na+ ion of a neighboring metallacryptate unit (Na4 to Na6 and Na7 to Na5). In addition, the DMF mol­ecules of Na4 of 1 and Na7 of 2B bind in a terminal fashion; however, for Na4 of 2A the carbonyl oxygen atom of the DMF forms a μ-bridge between Na4 and Na6, which contributes to the linkage between 2A and 2B. Overall the connections between Na4, Na5, Na6, and Na7 of 2 connect the two metallacryptates to form a dimeric unit.

Table 5
Continuous shapes measures (CShM) values for the geometry about the five-coordinate Na+ ions of 1 and 2

Shape Penta­gon (D5h) Vacant octa­hedron (C4v) Trigonal bipyramid (D3h) Spherical square pyramid (C4v) Johnson trigonal bipyramid (J12; D3h)
1          
Na4 28.509 5.866 4.799 2.726 8.418
           
2          
Na4 24.436 5.808 4.193 4.292 6.350
Na7 32.074 8.161 3.598 4.728 5.923

For the six-coordinate Na+ ions, the geometries can best be described as severely distorted octa­hedra with most CShM values above 3.0 and an average value of 3.591 for 1 and 4.039 for 2 (Table 6[link]). For both 1 and 2, the six-coordinate Na+ ions serve as connection points between neighboring metallacryptate units and this connectivity generates the two-dimensional sheet. A description of the coordination environment of Na1–Na3 and Na5 of 1 and the connectivity to neighboring metallacryptates follows. For Na1, the coordination environment consists of three μ-carbonyl oxygen atoms of three different bridging DMF mol­ecules, a carbonyl oxygen atom of a terminal DMF mol­ecule, a phenolate oxygen atom of a shi3− ligand, and a carboxyl­ate oxygen atom of a different shi3− ligand. The three bridging DMF mol­ecules connect Na1 to the Na3 ion of a neighboring metallacryptate. For Na2, the coordination environment consists of three μ-carbonyl oxygen atoms of bridging DMF mol­ecules, two phenolate oxygen atoms of two different shi3− ligands, and a carboxyl­ate oxygen atom of a third shi3− ligand. The three bridging DMF mol­ecules connect Na2 to the Na5 ion of a neighboring metallacryptate. For Na3, the coordination environment consists of three μ-carbonyl oxygen atoms of bridging DMF mol­ecules, two carboxyl­ate oxygen atoms of two different shi3− ligands, and a phenolate oxygen atom of a third shi3− ligand. The three bridging DMF mol­ecules connect Na3 to the Na1 ion of a neighboring metallacryptate. For Na5, the coordination environment consists of three μ-carbonyl oxygen atoms of bridging DMF mol­ecules, a carboxyl­ate oxygen atom of an acetate anion that bridges between Na5 and Al5, a phenolate oxygen atom of a shi3− ligand, and a carboxyl­ate oxygen atom of an Hshi2− ligand. The three bridging DMF mol­ecules connect Na5 to the Na2 ion of a neighboring metallacryptate. The series of μ-bridging DMF mol­ecules between the peripheral Na+ ions of the metallacryptates generate the two-dimensional network of the compound (Fig. 4[link]). If the shape of the metallacryptate of 1 is approximated as a square, then the Na+ ions Na1, Na2, Na3, and Na5 lie at each corner. Each Na+ ion connects to one adjacent MC via three μ-carbonyl oxygens of the bridging DMF mol­ecules. Thus, each metallacryptate unit is connected to four adjacent metallacryptates via the peripheral Na–DMF–Na connections and a two-dimensional sheet of metallacryptates is generated (Na1 to an adjacent Na3, Na2 to an adjacent Na5, Na3 to an adjacent Na1, and Na5 to an adjacent Na2).

Table 6
Continuous shapes measures (CShM) values for the geometry about the six-coordinate Na+ ions of 1 and 2

Shape Hexagon (D6h) Penta­gonal pyramid (C5v) Octa­hedron (Oh) Trigonal prism (D3h) Johnson penta­gonal pyramid (J2; C5v)
1          
Na1 23.743 17.692 4.017 10.799 20.480
Na2 28.605 25.190 3.864 10.420 28.150
Na3 26.941 26.970 4.054 14.900 30.159
Na5 27.270 23.739 2.428 14.501 29.956
           
2          
Na1 28.015 22.084 4.608 13.472 23.950
Na2 23.347 17.492 4.089 11.501 20.119
Na3 26.767 27.219 3.890 14.542 30.261
Na5 31.841 18.329 3.676 10.228 21.995
Na6 27.107 21.224 2.932 12.611 25.625
Na8 25.747 26.564 4.280 14.099 29.546
Na9 24.002 17.120 4.074 10.668 19.939
Na10 27.061 21.910 4.759 13.316 23.861

A description of the coordination environment of Na1–Na3, Na5, Na6, and Na8–Na10 of 2 and the connectivity to neighboring metallacryptates follows. For Na1, the coordination environment consists of two μ-carbonyl oxygen atoms of two different bridging DMF mol­ecules, a carbonyl oxygen atom of a terminal DMF mol­ecule, two phenolate oxygen atoms of two different shi3− ligands, and a carboxyl­ate oxygen atom of a third shi3− ligand. The two bridging DMF mol­ecules connect Na1 to the Na10 ion of a neighboring metallacryptate. For Na2, the coordination environment consists of three μ-carbonyl oxygen atoms of bridging DMF mol­ecules, a carbonyl oxygen atom of a terminal DMF mol­ecule, a phenolate oxygen atom of a shi3− ligand, and a carboxyl­ate oxygen atom of a different shi3− ligand. The three bridging DMF mol­ecules connect Na2 to the Na3 ion of a neighboring metallacryptate. For Na3, the coordination environment consists of three μ-carbonyl oxygen atoms of bridging DMF mol­ecules, a carboxyl­ate oxygen atom of a shi3− ligand, a phenolate oxygen atom of a different shi3− ligand, and a carboxyl­ate oxygen atom of an Hshi2− ligand. The three bridging DMF mol­ecules connect Na3 to the Na2 ion of a neighboring metallacryptate. For Na5, the coordination environment consists of two carbonyl oxygen atoms of terminal DMF mol­ecules, a carboxyl­ate oxygen atom of an acetate anion that bridges between Na5 and Al2, a carboxyl­ate oxygen atom of a different acetate anion that bridges between Na5 and Na7 of the same dimeric unit, a phenolate oxygen atom of a shi3− ligand, and a carboxyl­ate oxygen atom of an Hshi2− ligand. Na5 is not connected to any neighboring metallacryptate units. For Na6, the coordination environment consists of one μ-carbonyl oxygen atom of a bridging DMF mol­ecule that bridges between Na6 and Na4 of the same dimeric unit, one carbonyl oxygen atom of terminal DMF mol­ecule, a carboxyl­ate oxygen atom of an acetate anion that bridges between Na6 and Al11, a carboxyl­ate oxygen atom of a different acetate anion that bridges between Na6 and Na4 of the same dimeric unit, a phenolate oxygen atom of a shi3− ligand, and a carboxyl­ate oxygen atom of an Hshi2− ligand. Na6 is not connected to any neighboring metallacryptate units. For Na8, the coordination environment consists of three μ-carbonyl oxygen atoms of three different bridging DMF mol­ecules, a phenolate oxygen atom of a shi3− ligand, a carboxyl­ate oxygen atom of a different shi3− ligand, and a carboxyl­ate oxygen atom of an Hshi2− ligand. The three bridging DMF mol­ecules connect Na8 to the Na9 ion of a neighboring metallacryptate. For Na9, the coordination environment consists of three μ-carbonyl oxygen atoms of three different bridging DMF mol­ecules, a carbonyl oxygen atom of a terminal DMF mol­ecule, a phenolate oxygen atom of a shi3− ligand, and a carboxyl­ate oxygen atom of a different shi3− ligand. The three bridging DMF mol­ecules connect Na9 to the Na8 ion of a neighboring metallacryptate. For Na10, the coordination environment consists of two μ-carbonyl oxygen atoms of two different bridging DMF mol­ecules, a carbonyl oxygen atom of a terminal DMF mol­ecule, two phenolate oxygen atoms of two different shi3− ligands, and a carboxyl­ate oxygen atom of a third shi3− ligand. The two bridging DMF mol­ecules connect Na10 to the Na1 ion of a neighboring metallacryptate. The series of μ-bridging DMF mol­ecules between the peripheral Na+ ions of the dimeric metallacryptate units of 2 generate the two-dimensional network of the compound (Fig. 5[link]). For the dimeric unit, there are six connection points (Na1, Na2, Na3, Na8, Na9, and Na10) to neighboring metallacryptates. If the shape of the dimeric metallacryptate unit of 2 is approximated as a rectangle with Na2 and Na8 along one long edge, Na3 and Na9 along the opposite long edge, and Na1 and Na10 on opposite short edges, then each dimeric unit connects to one other dimeric unit along each edge via the μ-carbonyl oxygen atoms of the bridging DMF mol­ecules. Thus, each dimeric unit is connected to four adjacent dimeric metallacryptate units via the peripheral Na–DMF–Na connections and a two-dimensional sheet of metallacryptates is generated (Na1 to an adjacent Na10 on a short edge, Na10 to an adjacent Na1 on the opposite short edge, Na2 to an adjacent Na3 and Na8 to an adjacent Na9 along the same long edge, and Na3 to an adjacent Na2 and Na9 to an adjacent Na8 along the other long edge).

For both 1 and 2, several solvent mol­ecules are located within the two-dimensional networks. For 1 there are four DMF mol­ecules and one water mol­ecule per metallacryptate. One of the DMF mol­ecules (associated with N21) is flip disordered over two sites and refined to 0.50 (2):0.50 (2). For 2 there are 6.335 DMF mol­ecules per dimeric metallacryptate unit. The DMF mol­ecules associated with N36 and N42 are disordered over two positions and refined to 0.700 (13):0.300 (13) and to 0.661 (12):0.339 (12), respectively. In addition, three DMF mol­ecules associated with N38, N40, and N41 are partially occupied and refined to 0.806 (9), 0.682 (16), and 0.847 (14), respectively. Moreover, both 1 and 2 contain solvent-accessible voids of 988 and 832 Å3, respectively. The residual electron density peaks were not arranged in an inter­pretable pattern; thus, the SQUEEZE routine as implemented in PLATON was used to account for the residual electron density (van der Sluis & Spek, 1990[Sluis, P. van der & Spek, A. L. (1990). Acta Cryst. A46, 194-201.]; Spek, 2015[Spek, A. L. (2015). Acta Cryst. C71, 9-18.]). The SQUEEZE procedure accounted for 313 and 235 electrons within the solvent-accessible voids of 1 and 2, respectively.

3. Supra­molecular features

For 1 and 2, numerous hydrogen bonds and weak C—H⋯O inter­actions exist within each metallacryptate, between components of the metallacryptate and the bridging DMF mol­ecules, and between the two-dimensional network and the solvent mol­ecules (Tables 7[link] and 8[link]). For 1, the protonated oxime nitro­gen atoms of the two Hshi2− ligands each form a hydrogen bond to the oxime oxygen atom of a neighboring shi3− ligand (N7—H7⋯O22 and N9—H9⋯O13). The water mol­ecule (O42) forms hydrogen bonds to the phenolate oxygen atom of a shi3− ligand (O42—H42A⋯O3) and to the carbonyl oxygen atom of a DMF mol­ecule coordinated to Na4 (O42—H42B⋯O37). In addition, O42 inter­acts with the methine group of a μ-DMF mol­ecule (C66—H66⋯O42). Two C—H⋯O inter­actions exist between the carbon–hydrogen atoms of the benzene rings of the shi3− ligands with the carbonyl oxygen atoms of the μ-DMF mol­ecules that bridge between two Na+ ions (associated with C20 and C41). Furthermore, the DMF mol­ecules form numerous C—H⋯O inter­actions with neighboring oxygen atoms through either the methine or the methyl groups of the DMF mol­ecules. The methine groups form inter­actions with the oxime oxygen atom of a shi3− ligand (associated with C69), the carboxyl­ate oxygen atom of Hshi2− (associated with C78) or shi3− (associated with C84) ligands, and the carbonyl oxygen atom of neighboring DMF mol­ecules (associated with C78). The methyl groups form inter­actions with the carbonyl oxygen atoms of neighboring DMF mol­ecules (associated with C67, C74, C79, C80, C83, C94, C95, and C97), the oxime oxygen atom of a shi3− ligand (associated with C71), and the phenolate oxygen atom of shi3− (associated with C73, C79, C98) or Hshi2− (associated with C92) ligands.

Table 7
Hydrogen-bond geometry (Å, °) for 1[link]

D—H⋯A D—H H⋯A DA D—H⋯A
O42—H42A⋯O3 0.84 2.08 2.868 (14) 156
O42—H42B⋯O37 0.84 2.08 2.820 (15) 146
N7—H7⋯O22 0.90 (3) 2.25 (6) 2.899 (11) 129 (5)
N9—H9⋯O27 0.91 (3) 1.92 (3) 2.693 (11) 142 (6)
C20—H20⋯O35i 0.95 2.65 3.483 (16) 147
C41—H41⋯O34 0.95 2.60 3.469 (14) 153
C66—H66⋯O42i 0.95 2.36 3.30 (2) 171
C67—H67A⋯O31 0.98 2.47 3.41 (2) 159
C69—H69⋯O10 0.95 2.50 3.260 (14) 137
C71—H71C⋯O16 0.98 2.56 3.363 (16) 139
C73—H73A⋯O6 0.98 2.33 3.268 (14) 159
C74—H74C⋯O38ii 0.98 2.34 3.32 (3) 177
C78—H78⋯O20iii 0.95 2.56 3.260 (14) 131
C78—H78⋯O37iii 0.95 2.65 3.524 (16) 154
C79—H79B⋯O41 0.98 2.45 3.25 (4) 139
C79—H79C⋯O18 0.98 2.48 3.446 (17) 168
C80—H80A⋯O37iii 0.98 2.52 3.470 (18) 163
C80—H80B⋯O41 0.98 2.49 3.31 (4) 140
C83—H83B⋯O40 0.98 2.35 3.309 (19) 166
C84—H84⋯O11iv 0.95 2.58 3.292 (18) 132
C84—H84⋯O23iv 0.95 2.54 3.414 (18) 153
C92—H92B⋯O21iv 0.98 2.40 3.35 (2) 164
C94—H94A⋯O41 0.98 2.47 3.32 (4) 145
C95—H95A⋯O41 0.98 2.36 3.23 (4) 147
C97—H97B⋯O31iv 0.98 2.57 3.35 (3) 137
C98—H98B⋯O24v 0.98 2.65 3.318 (19) 125
Symmetry codes: (i) [x+{\script{1\over 2}}, y+{\script{1\over 2}}, z]; (ii) x, y+1, z; (iii) [x-{\script{1\over 2}}, y+{\script{1\over 2}}, z]; (iv) [x-{\script{1\over 2}}, y-{\script{1\over 2}}, z]; (v) [x, -y+1, z+{\script{1\over 2}}].

Table 8
Hydrogen-bond geometry (Å, °) for 2[link]

D—H⋯A D—H H⋯A DA D—H⋯A
N5—H5N⋯O7 0.89 (3) 2.36 (7) 3.059 (8) 136 (7)
N6—H6N⋯O10 0.87 (3) 2.46 (8) 3.004 (9) 121 (7)
N11—H11N⋯O46 0.87 (3) 2.27 (6) 3.003 (8) 142 (8)
N14—H14N⋯O37 0.89 (3) 2.22 (8) 2.795 (8) 122 (7)
C4—H4⋯O62 0.95 2.64 3.477 (11) 147
C60—H60⋯O74i 0.95 2.55 3.287 (19) 135
C81—H81⋯O60ii 0.95 2.59 3.293 (12) 131
C123—H123⋯O68 0.95 2.48 3.333 (11) 150
C128—H12C⋯O69B 0.98 2.39 3.14 (5) 133
C130—H13B⋯O14 0.98 2.40 3.251 (10) 145
C137—H137⋯O4 0.95 2.36 3.221 (10) 151
C139—H13T⋯O19 0.98 2.53 3.459 (13) 159
C140—H140⋯O61 0.95 2.41 3.137 (11) 134
C144—H14I⋯O61 0.98 2.65 3.599 (15) 164
C153—H15G⋯O11 0.98 2.60 3.450 (13) 146
C157—H15P⋯O77iii 0.98 2.35 3.241 (19) 150
C159—H15S⋯O78iv 0.98 2.38 3.332 (14) 165
C159—H15U⋯O41 0.98 2.51 3.486 (13) 175
C162—H16F⋯O29 0.98 2.60 3.343 (15) 132
C163—H16G⋯O48iv 0.98 2.57 3.540 (14) 170
C168—H16P⋯O51 0.98 2.63 3.388 (12) 135
C169—H16T⋯O80iii 0.98 2.65 3.55 (2) 153
C171—H17C⋯O73v 0.98 2.42 3.360 (12) 161
C172—H17E⋯O66 0.98 2.61 3.518 (14) 154
C173—H173⋯O52 0.95 2.37 3.254 (9) 154
C175—H17J⋯O49 0.98 2.58 3.434 (13) 146
C183—H18H⋯O9 0.98 2.64 3.60 (3) 166
C183—H18H⋯O23 0.98 2.43 3.15 (3) 130
C184—H18K⋯O9 0.98 2.64 3.56 (2) 156
C191—H191⋯O77vi 0.95 2.64 3.48 (3) 148
C199—H19T⋯O29 0.98 2.52 3.50 (4) 179
C199—H19U⋯O36 0.98 2.59 3.39 (3) 139
C201—H20D⋯O15 0.98 2.50 3.30 (3) 139
C204—H20G⋯O68v 0.98 2.26 3.21 (5) 163
C223—H22G⋯O15 0.98 2.42 3.25 (5) 142
Symmetry codes: (i) x+1, y, z; (ii) x-1, y, z; (iii) [x, -y+1, z+{\script{1\over 2}}]; (iv) [x, -y, z-{\script{1\over 2}}]; (v) x, y+1, z; (vi) [x, -y, z+{\script{1\over 2}}].

Complex 2 has similar hydrogen bonds and weak C—H⋯O inter­actions as 1. For 2, the protonated oxime nitro­gen atoms of the four Hshi2− ligands each form a hydrogen bond to the oxime oxygen atom of a neighboring shi3− ligand (N5—H5N⋯O7, N6—H6N⋯O10, N11—H11N⋯O46, and N14—H14N⋯O37). Four C—H⋯O inter­actions exist between the carbon–hydrogen atoms of the benzene rings of the shi3− ligands with the carbonyl oxygen atoms of the DMF mol­ecules coordinated to the Na+ ions (associated with C4, C60, C81, and C123). The methyl groups of the acetate anions also form C—H⋯O inter­actions to the carbonyl oxygen atom of a DMF mol­ecule coordinated to a Na+ ion (C128—H12C⋯O69B) and to a phenolate oxygen atom of an Hshi2− ligand (C130—H13B⋯O14). Furthermore, the DMF mol­ecules form C—H⋯O inter­actions with neighboring oxygen atoms through either the methine or the methyl groups of the DMF mol­ecules. The methine groups form inter­actions with the oxime oxygen atom of shi3− ligands (associated with C137 and C173) and the carbonyl oxygen atom of neighboring DMF mol­ecules (associated with C140 and C191). The methyl groups form inter­actions with the carbonyl oxygen atoms of neighboring DMF mol­ecules (associated with C144, C157, C159, C169, C171, C172, and C204), the oxime oxygen atoms of shi3− ligands (associated with C139 and C175), the phenolate oxygen atoms of shi3− (associated with C168, C183, and C184) or Hshi2− (associated with C201 and C223) ligands, and the carboxyl­ate oxygen atom of shi3− (associated with C153, C162, C163, C183, and C199) or Hshi2− (associated with C159) ligands.

4. Database survey

A survey of the Cambridge Structural Database (CSD version 5.41, update March 2020, Groom et al., 2016[Groom, C. R., Bruno, I. J., Lightfoot, M. P. & Ward, S. C. (2016). Acta Cryst. B72, 171-179.]) reveals that there is only one other comparable metallacryptate, which is based on gallium (DIBLOS; Lutter et al., 2018[Lutter, J. C., Eliseeva, S. V., Kampf, J. W., Petoud, S. & Pecoraro, V. L. (2018). Chem. Eur. J. 24, 10773-10783.]). The structure contains a [3.3.1] metallacryptand topology built with six GaIII ions instead of AlIII ions and also contains seven shi3− ligands as in 1 and 2, but the gallium-based structure has one H2shi and one Hshi2− ligand as opposed to the two Hshi2− ligands in 1 and 2. For the gallium-based structure, a TbIII ion is captured in the central cavity to form the metallacryptate. The major difference between 1 and 2 and the gallium-based structure is that the latter is only a discrete mol­ecule and not a two-dimensional network. For the gallium-based structure, there are no sodium ions. Instead charge neutrality is maintained by the presence of three tri­ethyl­ammonium cations, which are not coordinated to the metallacryptates and which do not form bridges between them.

5. Synthesis and crystallization

Synthetic materials

Salicyl­hydroxamic acid (H3shi, 99%) and dysprosium(III) nitrate penta­hydrate (99.9%) were purchased from Alfa Aesar. Hy­droxy­aluminum di­acetate (99+%) was purchased from Matheson Coleman and Bell. Sodium acetate trihydrate (certified ACS grade) was purchased from Fisher Scientific. N,N-Di­methyl­formamide (DMF, certified ACS grade) and diethyl ether (certified ACS grade) were purchased from Pharmco–Aaper. All reagents were used as received and without further purification.

General preparation of [3.3.1]DyAl6Na5 -metallacryptate compounds The same procedure was used to synthesize 1 and 2; however, the syntheses resulted in the crystallization of the compound in two different structures. Dysprosium(III) nitrate penta­hydrate (0.125 mmol, 55.7 mg for 1, 54.8 mg for 2), sodium acetate trihydrate (4 mmol, 544.7 mg for 1, 545.3 mg for 2), and salicyl­hydroxamic acid (2 mmol, 306.4 mg for 1, 307.2 mg for 2) were mixed in 10 mL of DMF resulting in a cloudy, slightly pink mixture. In a separate beaker, hy­droxy­aluminum di­acetate (2 mmol, 324.6 mg for 1, 325.1 mg for 2) was mixed in 10 mL of DMF, resulting in a cloudy, white mixture. The two solutions were mixed, resulting in a cloudy, slightly pink mixture and allowed to stir overnight. The solution was filtered the next day to remove a white precipitate, which was discarded, and a pale-yellow filtrate was recovered. X-ray quality crystals were grown via diethyl ether diffusion at room temperature. White, slightly pink, thin, needle-shaped crystals were recovered after 11 days for 1 and 28 days for 2.

[DyAl6Na5(OAc)(Hshi)2(shi)7(DMF)8]·H2O·4DMF, 1: The percentage yield was 2% (4.8 mg, 1.75x10−3 mmol) based on dysprosium(III) nitrate penta­hydrate.

[DyAl6Na5(OAc)(Hshi)2(shi)7(DMF)8.5]2·6.335DMF, 2: The percentage yield was 6% (20.4 mg, 3.77x10−3 mmol) based on dysprosium(III) nitrate penta­hydrate.

6. Refinement

For complex 1, the crystal under investigation was found to have two components, but the domains were not related by any meaningful twin relationship. The orientation matrices for the two components were identified using the program CELL_NOW (Sheldrick, 2008b[Sheldrick, G. M. (2008b). CELL_NOW. University of Göttingen, Germany.]), with the two components being related by a 3.5° rotation around the reciprocal axis 0 0 1. The structure was solved by direct methods with only the non-overlapping reflections of component 1, and the structure was refined using all reflections of component 1 (including the overlapping ones), resulting in a BASF value of 0.40356 (9). The Rint value given is for all reflections and is based on agreement between observed single and composite intensities and those calculated from refined unique intensities and domain fractions (TWINABS; Sheldrick, 2012[Sheldrick, G. M. (2012). TWINABS. University of Göttingen, Germany.]).

For a portion of the metallacryptate mol­ecule (Dy1, Al3, Al5, O1, O5, O7, O10, O13, O14, N2, N3, N4, C8, C9, C22, C29, and C30) anisotropic displacement parameters in the bond direction were restrained to be similar using a RIGU restraint in SHELXL (esd = 0.001 Å2). In addition, to avoid correlation of the ellipsoids of Al5 and O13, their ADPs were constrained to be identical.

The geometry of the DMF mol­ecule associated with N18 was restrained to be similar to the DMF mol­ecule associated with N10 (esd = 0.02 Å), and the atoms of the DMF mol­ecule were restrained to have similar Uij components of their ADPs (esd = 0.01 Å2; SIMU restraint in SHELXL).

A DMF mol­ecule, associated with N21, is flip disordered over two sites. The geometries of the two DMF mol­ecules were restrained to be similar to the DMF mol­ecule associated with N10 (esd = 0.02 Å). The atoms of the DMF mol­ecules were restrained to have similar Uij components of the ADPs (esd = 0.01 Å2; SIMU restraint in SHELXL), and the Uij components of the atoms were restrained to approximate isotropic behavior (esd = 0.01 Å2). Subject to these restraints, the occupancy ratio of the disordered DMF mol­ecule refined to 0.50 (2):0.50 (2).

For the water mol­ecule associated with O42, the oxygen–hydrogen bond distances were restrained to 0.84 (2) Å, the hydrogen–hydrogen distance was restrained to 1.36 (2) Å, and the hydrogen atoms were refined as riding on the oxygen atoms. Several hydrogen-bond distances between the hydrogen atom and the acceptor atom were restrained to expected target values (H42A to O3, H42B to O37, H7 to N7 and O21, and H9 to N9 and O27).

The amide N—H groups were refined subject to a distance constraint of 0.88 Å.

To avoid conflict between the hydrogen atoms and neighboring carbon atoms of DMF mol­ecules, the distances between the atoms (C100 with H94A, H94B, and H94C and C94 with H10G, H10H, and H10I) were restrained to at least 2.80 Å.

For the methyl-group carbon atoms C85, C86, C91, C92, C95, C101, C102, and C103, hydrogen atoms were placed in tetra­hedral positions with an ideal staggered geometry (AFIX 33 in SHELXL). All other carbon-bound hydrogen atoms were placed in calculated positions and refined as riding on their carrier atoms with C—H distances of 0.95 Å for sp2 carbon atoms and 0.98 Å for methyl carbon atoms. The Uiso values for hydrogen atoms were set to a multiple of the value of the carrying carbon atom (1.2 × for sp2-hybridized carbon and nitro­gen atoms or 1.5 × for methyl carbon atoms and water oxygen atoms).

In addition, the structure of 1 contains solvent-accessible voids of 988 Å3. The residual electron density peaks are not arranged in an inter­pretable pattern. The structure factors were instead augmented via reverse Fourier transform methods using the SQUEEZE routine (van der Sluis & Spek, 1990[Sluis, P. van der & Spek, A. L. (1990). Acta Cryst. A46, 194-201.]; Spek, 2015[Spek, A. L. (2015). Acta Cryst. C71, 9-18.]) as implemented in the program PLATON (Spek, 2020[Spek, A. L. (2020). Acta Cryst. E76, 1-11.]). The resultant files were used in the further refinement. (The `FAB' file with details of the SQUEEZE results is appended to the CIF file). The SQUEEZE procedure accounted for 313 electrons within the solvent-accessible voids. Additional crystal data, data collection and structure refinement details are summarized in Table 9[link].

Table 9
Experimental details

  1 2
Crystal data
Chemical formula [DyAl6Na5(C7H5NO3)2(C7H4NO3)7(C2H3O2)(C3H7NO)8]·4C3H7NO·H2O [Dy2Al12Na10(C7H5NO3)4(C7H4NO3)14(C2H3O2)2(C3H7NO)17]·6.335C3H7NO
Mr 2746.57 5408.50
Crystal system, space group Monoclinic, Cc Monoclinic, Pc
Temperature (K) 100 100
a, b, c (Å) 22.6809 (13), 20.5788 (11), 27.6206 (16) 28.1847 (14), 15.3683 (8), 30.7354 (16)
β (°) 101.590 (2) 106.461 (2)
V3) 12628.9 (12) 12767.4 (11)
Z 4 2
Radiation type Mo Kα Cu Kα
μ (mm−1) 0.74 4.44
Crystal size (mm) 0.15 × 0.15 × 0.14 0.25 × 0.23 × 0.19
 
Data collection
Diffractometer Bruker D8 Quest CMOS Bruker X8 Prospector CCD
Absorption correction Multi-scan (SADABS; Bruker, 2014[Bruker (2014). APEX2, SAINT, and SADABS. Bruker AXS Inc., Madison, Wisconsin, USA, 2014.]) Multi-scan (SADABS; Bruker, 2014[Bruker (2014). APEX2, SAINT, and SADABS. Bruker AXS Inc., Madison, Wisconsin, USA, 2014.])
Tmin, Tmax 0.628, 0.746 0.488, 0.753
No. of measured, independent and observed [I > 2σ(I)] reflections 40899, 40899, 36071 154195, 38274, 36111
Rint 0.071 0.050
(sin θ/λ)max−1) 0.738 0.596
 
Refinement
R[F2 > 2σ(F2)], wR(F2), S 0.056, 0.159, 1.05 0.053, 0.137, 1.02
No. of reflections 40899 38274
No. of parameters 1634 3599
No. of restraints 393 4954
H-atom treatment H atoms treated by a mixture of independent and constrained refinement H atoms treated by a mixture of independent and constrained refinement
Δρmax, Δρmin (e Å−3) 1.38, −2.04 2.28, −1.57
Absolute structure Flack x determined using 7452 quotients [(I+)−(I)]/[(I+)+(I)] (Parsons et al., 2013[Parsons, S., Flack, H. D. & Wagner, T. (2013). Acta Cryst. B69, 249-259.]) Refined as an inversion twin
Absolute structure parameter 0.026 (5) 0.097 (3)
Computer programs: APEX2 and SAINT (Bruker, 2014[Bruker (2014). APEX2, SAINT, and SADABS. Bruker AXS Inc., Madison, Wisconsin, USA, 2014.]), SHELXS97 (Sheldrick, 2008a[Sheldrick, G. M. (2008a). Acta Cryst. A64, 112-122.]), SHELXL2018 (Sheldrick, 2015[Sheldrick, G. M. (2015). Acta Cryst. C71, 3-8.]) shelXle (Hübschle et al., 2011[Hübschle, C. B., Sheldrick, G. M. & Dittrich, B. (2011). J. Appl. Cryst. 44, 1281-1284.]), Mercury (Macrae et al., 2020[Macrae, C. F., Sovago, I., Cottrell, S. J., Galek, P. T. A., McCabe, P., Pidcock, E., Platings, M., Shields, G. P., Stevens, J. S., Towler, M. & Wood, P. A. (2020). J. Appl. Cryst. 53, 226-235.]), and publCIF (Westrip, 2010[Westrip, S. P. (2010). J. Appl. Cryst. 43, 920-925.]).

For complex 2, the structure was refined as a two-component inversion twin. The BASF value refined to 0.097 (3). In addition, several solvate DMF mol­ecules and one salicyl­hydroximate ligand of the mol­ecule show disorder or were partially occupied. Several DMF mol­ecules were also refined as disordered over two positions. Areas with extensively disordered unidentified solvate mol­ecules are present, which were accounted for using the SQUEEZE routine.

To model the disorder of the DMF mol­ecules, the following conditions were applied: For all of the solvate DMF mol­ecules except the DMF associated with N19, neighboring atoms were restrained to have similar Uij components of their ADPs (SIMU restraints in SHELXL). All DMF mol­ecules were restrained to have similar geometries to that of the DMF mol­ecule associated with N19 (esd = 0.02 Å). The atoms of the DMF mol­ecule associated with N36, N37, N39 and N42 and the atoms C1, C6, and C99 were restrained to be approximately isotropic. The atom pairs O60 and O60B, O63 and O63B, and O70 and O70B were each given identical coord­inates and thermal parameters to avoid correlation of their positional and thermal parameters. An anti-bumping restraint was applied to avoid close contacts for partially occupied or disordered DMF mol­ecules (BUMP −0.04 in SHELXL). Subject to the above conditions, the occupancy ratio of the DMF mol­ecules associated with N20, N23, N24, N29, N30, N34, N36, and N42 refined to 0.847 (14):0.153 (14), 0.778 (14):0.222 (14), 0.661 (12):0.339 (12), 0.806 (9):0.194 (9), 0.703 (14):0.297 (14), 0.818 (14):0.182 (14), 0.700 (13):0.300 (13), and 0.661 (12):0.339 (12), respectively. Three DMF mol­ecules associated with N38, N40, and N41 were refined as partially occupied and subject to the above conditions, their occupancy fractions refined to 0.806 (9), 0.682 (16), and 0.847 (14), respectively.

To model the disorder of the salicyl­hydroximate ligand associated with N8, the neighboring atoms of the ligand were restrained to have similar Uij components of their ADPs (SIMU restraint in SHELXL). The atom pair C50 and C50B were each given identical coordinates and thermal parameters to avoid correlation of their positional and thermal parameters. To maintain planarity of the benzene rings, the carbon atoms were restrained to lie in a common plane (esd = 0.1 Å3). Subject to the above conditions, the occupancy ratio for the ligands associated with N8 refined to 0.56 (5):0.44 (5). The amide N—H groups were refined subject to a distance constraint of 0.88 Å. To avoid correlation, the atoms Al9 and N12 were each given identical thermal parameters.

For portions of the benzene rings of four different salicyl­hydroximate ligands (C31–35, C41–42, C43–C49, and C79–C84), the anisotropic displacement parameters in the bond direction were restrained to be similar using a RIGU restraint in SHELXL (esd = 0.004 Å2).

For the methyl-group carbon atoms C147, C166, C186, C187, C192, C193, C195, C196, C198, C199, C201, C202, C210, C211, C216, C217, C222, C223, C225, C226, C231, and C232, hydrogen atoms were placed in tetra­hedral positions with an ideal staggered geometry (AFIX 33 in SHELXL). All other methyl-group hydrogen atoms were allowed to rotate. All other hydrogen atoms were placed in calculated positions and refined as riding on their carrier atoms with C—H distances of 0.95 Å for sp2 carbon atoms and 0.98 Å for methyl carbon atoms. The Uiso values for hydrogen atoms were set to a multiple of the value of the carrying carbon atom (1.2 × for sp2-hybridized carbon and nitro­gen atoms and 1.5 × for methyl carbon atoms).

In addition to the disordered solvate mol­ecules described above, there are additional solvent-accessible voids of 832 Å3. The structure factors of 2 were augmented via reverse Fourier transform methods using the SQUEEZE routine (van der Sluis & Spek, 1990[Sluis, P. van der & Spek, A. L. (1990). Acta Cryst. A46, 194-201.]; Spek, 2015[Spek, A. L. (2015). Acta Cryst. C71, 9-18.]), which accounted for 235 electrons within the solvent-accessible voids. Lastly, the following low-angle reflection ([\overline{1}] 0 0) was obscured by the beam stop and was omitted from the refinement. Further crystal data, data collection and structure refinement details are summarized in Table 9[link].

Supporting information


Computing details top

For both structures, data collection: APEX2 (Bruker, 2014); cell refinement: SAINT (Bruker, 2014); data reduction: SAINT (Bruker, 2014); program(s) used to solve structure: SHELXS97 (Sheldrick, 2008a). Program(s) used to refine structure: SHELXL2018 (Sheldrick, 2015) shelXle< (Hübschle et al., 2011) for (1); SHELXL2018 (Sheldrick, 2015), shelXle (Hübschle et al., 2011) for (2). Molecular graphics: Mercury (Macrae et al., 2020) for (1); Mercury (Macrae et al., 20<0) for (2). For both structures, software used to prepare material for publication: publCIF (Westrip, 2010).

Poly[[µ3-acetato-hexakis(µ-N,N-dimethylformamide)bis(N,N-dimethylformamide)bis[salicylhydroximato(2-)]heptakis[salicylhydroximato(3-)]hexaaluminium(III)dysprosium(III)pentasodium(I)] N,N-dimethylformamide tetrasolvate monohydrate] (1) top
Crystal data top
[DyAl6Na5(C7H5NO3)2(C7H4NO3)7(C2H3O2)(C3H7NO)8]·4C3H7NO·H2OF(000) = 5660
Mr = 2746.57Dx = 1.445 Mg m3
Monoclinic, CcMo Kα radiation, λ = 0.71073 Å
a = 22.6809 (13) ÅCell parameters from 9947 reflections
b = 20.5788 (11) Åθ = 2.9–30.4°
c = 27.6206 (16) ŵ = 0.74 mm1
β = 101.590 (2)°T = 100 K
V = 12628.9 (12) Å3Block, colorless
Z = 40.15 × 0.15 × 0.14 mm
Data collection top
Bruker D8 Quest CMOS
diffractometer
40899 independent reflections
Radiation source: I-mu-S microsource X-ray tube36071 reflections with I > 2σ(I)
Laterally graded multilayer (Goebel) mirror monochromatorRint = 0.071
ω and phi scansθmax = 31.7°, θmin = 2.5°
Absorption correction: multi-scan
(SADABS; Bruker, 2014)
h = 2831
Tmin = 0.628, Tmax = 0.746k = 2627
40899 measured reflectionsl = 3639
Refinement top
Refinement on F2Hydrogen site location: mixed
Least-squares matrix: fullH atoms treated by a mixture of independent and constrained refinement
R[F2 > 2σ(F2)] = 0.056 w = 1/[σ2(Fo2) + (0.0559P)2 + 94.4342P]
where P = (Fo2 + 2Fc2)/3
wR(F2) = 0.159(Δ/σ)max = 0.034
S = 1.05Δρmax = 1.38 e Å3
40899 reflectionsΔρmin = 2.04 e Å3
1634 parametersAbsolute structure: Flack x determined using 7452 quotients [(I+)-(I-)]/[(I+)+(I-)] (Parsons et al., 2013)
393 restraintsAbsolute structure parameter: 0.026 (5)
Special details top

Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes.

Refinement. For complex 1 the crystal under investigation was found to have two components, but the domains were not related by any meaningful twin relationship.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Dy10.83641 (2)0.62140 (2)0.71524 (2)0.01077 (10)
Al10.80306 (15)0.61749 (15)0.56957 (12)0.0111 (7)
Al20.72217 (14)0.50917 (14)0.68558 (10)0.0116 (6)
Al30.70939 (14)0.72285 (14)0.73084 (11)0.0115 (5)
Al40.89367 (14)0.76457 (14)0.68592 (11)0.0116 (6)
Al50.98018 (13)0.57341 (14)0.75403 (10)0.0115 (5)
Al60.85062 (15)0.61738 (15)0.85757 (12)0.0105 (7)
Na11.01453 (19)0.8570 (2)0.73422 (15)0.0179 (9)
Na20.63312 (19)0.8417 (2)0.72183 (15)0.0181 (9)
Na30.6110 (2)0.4410 (2)0.70212 (17)0.0207 (10)
Na40.8874 (2)0.4437 (2)0.69879 (16)0.0226 (9)
Na51.0490 (2)0.4538 (2)0.70893 (17)0.0198 (10)
O10.7917 (3)0.5879 (3)0.6315 (2)0.01077 (10)
O20.7609 (3)0.5423 (3)0.5478 (2)0.0154 (14)
O30.6958 (3)0.4324 (3)0.6560 (3)0.0143 (15)
O40.7382 (3)0.5897 (3)0.7163 (2)0.0100 (13)
O50.6440 (3)0.5460 (3)0.6661 (2)0.0132 (14)
O60.6510 (3)0.7487 (3)0.6754 (2)0.0128 (14)
O70.7790 (3)0.7142 (3)0.7039 (3)0.0115 (5)
O80.7369 (3)0.8103 (3)0.7377 (3)0.0134 (15)
O90.9105 (4)0.8456 (4)0.7127 (3)0.0166 (16)
O100.9162 (3)0.7017 (3)0.7387 (2)0.0131 (14)
O110.9759 (3)0.7563 (3)0.6839 (3)0.0133 (15)
O121.0464 (3)0.5681 (3)0.7275 (2)0.0143 (15)
O130.9088 (3)0.5759 (3)0.7799 (2)0.0115 (5)
O141.0170 (3)0.5978 (3)0.8188 (3)0.0162 (14)
O150.8982 (4)0.6530 (4)0.9100 (3)0.0171 (17)
O160.8147 (3)0.6502 (3)0.7951 (3)0.0123 (14)
O170.7846 (3)0.6521 (3)0.8758 (3)0.0156 (15)
O180.6524 (3)0.7423 (3)0.7677 (3)0.0144 (15)
O190.9192 (3)0.5560 (3)0.6960 (2)0.0128 (14)
O200.9621 (4)0.4584 (4)0.6491 (3)0.0210 (16)
O210.8746 (3)0.6006 (3)0.5583 (3)0.0156 (15)
O220.8693 (3)0.6850 (3)0.6529 (2)0.0097 (13)
O230.8659 (3)0.7982 (3)0.6213 (3)0.0153 (15)
O240.7607 (4)0.6653 (4)0.5219 (3)0.0173 (17)
O250.8059 (3)0.4979 (3)0.7194 (2)0.0122 (14)
O260.7064 (3)0.4712 (3)0.7448 (2)0.0150 (15)
O270.8355 (3)0.5326 (3)0.8630 (2)0.0146 (14)
O280.9909 (3)0.4830 (3)0.7676 (3)0.0163 (15)
O290.9223 (4)0.4118 (5)0.7800 (4)0.038 (2)
O301.1174 (4)0.8391 (4)0.7431 (3)0.0254 (18)
O311.0018 (4)0.8455 (5)0.8168 (3)0.037 (2)
O320.6187 (4)0.9202 (4)0.6590 (3)0.0221 (17)
O330.6351 (4)0.9330 (4)0.7714 (3)0.0245 (19)
O340.5298 (4)0.8395 (4)0.7185 (3)0.0238 (18)
O350.5528 (4)0.4641 (4)0.7610 (3)0.0240 (18)
O360.5241 (4)0.4064 (4)0.6551 (3)0.0258 (19)
O370.8423 (4)0.3771 (4)0.6335 (3)0.0326 (19)
O390.3352 (8)0.5105 (7)0.9336 (6)0.089 (5)
O400.5343 (7)0.4742 (6)0.9417 (6)0.078 (4)
O410.4018 (17)0.7139 (14)0.8093 (13)0.098 (9)0.50 (2)
C990.378 (2)0.7675 (18)0.8173 (14)0.077 (7)0.50 (2)
H990.3637300.7948000.7896070.107*0.50 (2)
N210.371 (2)0.788 (2)0.8606 (13)0.078 (6)0.50 (2)
C1000.392 (2)0.7537 (19)0.9067 (14)0.090 (9)0.50 (2)
H10G0.3817710.7787200.9340300.135*0.50 (2)
H10H0.3726710.7109600.9050560.135*0.50 (2)
H10I0.4357770.7481720.9120920.135*0.50 (2)
C1010.329 (3)0.841 (2)0.865 (2)0.078 (11)0.50 (2)
H10J0.3298380.8495150.8998900.117*0.50 (2)
H10K0.3404670.8798790.8489930.117*0.50 (2)
H10L0.2881340.8276250.8486750.117*0.50 (2)
O41B0.4220 (17)0.7141 (17)0.9347 (14)0.115 (10)0.50 (2)
C99B0.381 (2)0.757 (2)0.9190 (15)0.084 (7)0.50 (2)
H99B0.3529920.7674920.9390650.117*0.50 (2)
N21B0.377 (2)0.786 (2)0.8755 (14)0.079 (6)0.50 (2)
C1020.418 (2)0.769 (2)0.8433 (17)0.076 (8)0.50 (2)
H10M0.4085740.7947940.8130560.114*0.50 (2)
H10N0.4595600.7776690.8603530.114*0.50 (2)
H10O0.4139420.7225170.8348840.114*0.50 (2)
C1030.346 (2)0.847 (2)0.862 (2)0.061 (9)0.50 (2)
H10P0.3488650.8584630.8280140.092*0.50 (2)
H10Q0.3032070.8419320.8635680.092*0.50 (2)
H10R0.3639610.8809980.8846130.092*0.50 (2)
O420.7754 (7)0.3322 (7)0.7025 (6)0.093 (5)
H42A0.7488510.3612290.6970060.139*
H42B0.7915820.3292290.6775980.139*
N10.7547 (4)0.5331 (4)0.6279 (3)0.0107 (16)
N20.6912 (4)0.6350 (4)0.7049 (3)0.0114 (15)
N30.8148 (4)0.7705 (4)0.7062 (3)0.0116 (16)
N40.9696 (4)0.6690 (4)0.7326 (3)0.0130 (15)
N50.9196 (4)0.6024 (4)0.8277 (3)0.0113 (12)
N60.7599 (4)0.6836 (4)0.7954 (3)0.0156 (18)
N70.9326 (4)0.5632 (4)0.6497 (3)0.0163 (18)
H70.914 (5)0.595 (3)0.6306 (16)0.020*
N80.8326 (4)0.6952 (4)0.6056 (3)0.0125 (17)
N90.8049 (4)0.4891 (4)0.7693 (3)0.0141 (17)
H90.832 (3)0.502 (5)0.7966 (17)0.017*
N101.1657 (5)0.7559 (6)0.7897 (4)0.041 (3)
N110.9118 (5)0.8366 (5)0.8402 (4)0.033 (3)
N120.6703 (5)0.9210 (5)0.5959 (4)0.030 (3)
N130.6806 (5)0.9559 (5)0.8511 (4)0.033 (3)
N140.4608 (5)0.7563 (5)0.7104 (4)0.029 (2)
N150.5869 (4)0.5428 (5)0.8173 (3)0.021 (2)
N160.4933 (7)0.4073 (7)0.5715 (5)0.057 (4)
N170.8230 (5)0.3455 (5)0.5519 (4)0.027 (2)
N190.3857 (9)0.5680 (10)0.8816 (7)0.078 (5)
N200.5776 (8)0.3823 (7)0.9812 (5)0.064 (4)
C10.7400 (4)0.5108 (4)0.5822 (3)0.0104 (18)
C20.7026 (5)0.4536 (5)0.5709 (4)0.014 (2)
C30.6854 (5)0.4338 (5)0.5209 (4)0.021 (2)
H30.6984600.4583350.4958840.025*
C40.6499 (6)0.3793 (6)0.5077 (4)0.027 (3)
H40.6387350.3665970.4740680.032*
C50.6308 (6)0.3436 (5)0.5444 (4)0.024 (3)
H50.6063160.3062560.5356450.029*
C60.6472 (5)0.3617 (5)0.5935 (4)0.021 (2)
H60.6344170.3360960.6181730.025*
C70.6822 (5)0.4171 (5)0.6074 (4)0.015 (2)
C80.6447 (4)0.6089 (5)0.6768 (4)0.0127 (16)
C90.5939 (5)0.6502 (5)0.6543 (4)0.016 (2)
C100.5399 (5)0.6230 (6)0.6307 (4)0.023 (2)
H100.5350650.5772290.6315720.028*
C110.4932 (6)0.6602 (6)0.6061 (5)0.031 (3)
H110.4557830.6404380.5921450.037*
C120.5007 (6)0.7258 (6)0.6016 (4)0.026 (3)
H120.4693070.7512710.5827930.031*
C130.5540 (6)0.7550 (6)0.6243 (5)0.021 (3)
H130.5586000.8005280.6210090.025*
C140.6024 (5)0.7180 (5)0.6527 (4)0.013 (2)
C150.7880 (5)0.8198 (5)0.7232 (4)0.013 (2)
C160.8144 (5)0.8846 (5)0.7244 (4)0.014 (2)
C170.7798 (6)0.9380 (6)0.7316 (5)0.025 (3)
H170.7396720.9311940.7358020.030*
C180.8013 (7)0.9997 (7)0.7329 (7)0.039 (4)
H180.7760251.0354100.7364730.047*
C190.8613 (7)1.0102 (7)0.7288 (7)0.048 (5)
H190.8771571.0530350.7311100.057*
C200.8970 (6)0.9588 (6)0.7216 (6)0.032 (3)
H200.9373770.9666200.7185180.038*
C210.8748 (6)0.8943 (6)0.7187 (5)0.017 (3)
C220.9978 (5)0.7007 (5)0.7035 (4)0.0130 (19)
C231.0550 (5)0.6757 (5)0.6926 (4)0.018 (2)
C241.0885 (6)0.7157 (6)0.6682 (5)0.026 (3)
H241.0730910.7573030.6572930.032*
C251.1434 (6)0.6969 (6)0.6593 (5)0.031 (3)
H251.1660920.7260360.6436470.037*
C261.1657 (6)0.6355 (6)0.6733 (5)0.031 (3)
H261.2036570.6222530.6670430.037*
C271.1320 (5)0.5935 (6)0.6964 (4)0.023 (2)
H271.1472100.5513670.7059220.027*
C281.0762 (5)0.6123 (5)0.7060 (4)0.015 (2)
C290.9779 (4)0.6117 (4)0.8453 (3)0.0113 (12)
C300.9984 (5)0.6372 (5)0.8959 (4)0.014 (2)
C311.0610 (6)0.6431 (7)0.9149 (4)0.021 (3)
H311.0887740.6302880.8951150.026*
C321.0820 (6)0.6672 (6)0.9616 (4)0.029 (3)
H321.1240170.6706660.9742920.035*
C331.0418 (5)0.6863 (6)0.9897 (4)0.026 (3)
H331.0563040.7030061.0219450.031*
C340.9806 (5)0.6817 (6)0.9722 (4)0.022 (2)
H340.9538470.6960250.9923460.026*
C350.9570 (5)0.6562 (5)0.9251 (4)0.015 (2)
C360.7481 (5)0.6819 (5)0.8401 (3)0.0125 (19)
C370.6967 (5)0.7174 (5)0.8524 (4)0.016 (2)
C380.6925 (6)0.7229 (6)0.9029 (4)0.024 (3)
H380.7228680.7035620.9274180.029*
C390.6464 (7)0.7549 (6)0.9172 (5)0.037 (3)
H390.6438350.7571280.9511220.045*
C400.6028 (6)0.7844 (7)0.8808 (5)0.033 (3)
H400.5707260.8076340.8902900.040*
C410.6055 (5)0.7803 (6)0.8316 (4)0.024 (3)
H410.5753360.8010780.8077290.029*
C420.6520 (5)0.7461 (5)0.8157 (4)0.014 (2)
C430.9485 (4)0.5107 (5)0.6267 (4)0.015 (2)
C440.9494 (5)0.5173 (5)0.5727 (4)0.016 (2)
C450.9879 (5)0.4759 (6)0.5535 (4)0.023 (2)
H451.0137340.4473730.5750400.027*
C460.9888 (6)0.4760 (6)0.5035 (4)0.025 (3)
H461.0162000.4490100.4909490.030*
C470.9493 (5)0.5159 (6)0.4719 (4)0.026 (3)
H470.9489620.5152520.4374420.031*
C480.9106 (5)0.5564 (5)0.4899 (4)0.022 (2)
H480.8837120.5832560.4677780.026*
C490.9103 (5)0.5585 (5)0.5412 (4)0.017 (2)
C500.8344 (5)0.7550 (5)0.5916 (4)0.013 (2)
C510.8016 (5)0.7736 (5)0.5425 (4)0.013 (2)
C520.8041 (5)0.8376 (5)0.5263 (4)0.017 (2)
H520.8272450.8682850.5478670.020*
C530.7746 (6)0.8582 (5)0.4803 (4)0.024 (3)
H530.7768270.9022850.4706320.029*
C540.7418 (6)0.8135 (6)0.4487 (4)0.028 (3)
H540.7220600.8267800.4165330.034*
C550.7371 (5)0.7494 (5)0.4631 (4)0.021 (2)
H550.7132640.7197970.4410420.025*
C560.7670 (5)0.7275 (5)0.5099 (4)0.015 (2)
C570.7523 (4)0.4771 (5)0.7802 (4)0.0125 (19)
C580.7468 (5)0.4691 (5)0.8323 (3)0.014 (2)
C590.6987 (5)0.4318 (5)0.8412 (4)0.016 (2)
H590.6708560.4136110.8142700.019*
C600.6914 (5)0.4214 (5)0.8889 (4)0.019 (2)
H600.6596530.3945480.8950470.023*
C610.7310 (5)0.4505 (5)0.9282 (4)0.018 (2)
H610.7256660.4437450.9610560.021*
C620.7775 (5)0.4887 (5)0.9196 (4)0.018 (2)
H620.8036900.5087150.9467440.021*
C630.7871 (5)0.4989 (4)0.8709 (3)0.0144 (19)
C640.9689 (5)0.4441 (5)0.7957 (4)0.022 (2)
C651.0021 (7)0.4358 (7)0.8481 (5)0.040 (3)
H65A1.0434080.4217580.8482500.061*
H65B0.9817400.4029050.8645140.061*
H65C1.0027660.4772180.8656430.061*
C661.1602 (7)0.8014 (7)0.7554 (5)0.039 (3)
H661.1925350.8056690.7384690.047*
C671.1205 (8)0.7435 (8)0.8180 (7)0.050 (5)
H67A1.0875330.7747660.8088190.075*
H67B1.1380250.7478200.8532630.075*
H67C1.1048490.6992830.8112240.075*
C681.2188 (9)0.7116 (9)0.7975 (7)0.070 (6)
H68A1.2050870.6667400.7906630.105*
H68B1.2407030.7150390.8317700.105*
H68C1.2453960.7238810.7751040.105*
C690.9581 (6)0.8132 (7)0.8223 (4)0.029 (3)
H690.9571290.7686130.8132190.035*
C700.9093 (7)0.9047 (6)0.8537 (6)0.039 (3)
H70A0.8779630.9267670.8297530.059*
H70B0.9482940.9251970.8538000.059*
H70C0.8998850.9080550.8867710.059*
C710.8620 (6)0.7961 (7)0.8424 (5)0.038 (3)
H71A0.8265830.8117610.8188820.057*
H71B0.8537550.7970350.8758900.057*
H71C0.8710660.7514730.8339030.057*
C720.6357 (6)0.9474 (6)0.6244 (5)0.028 (3)
H720.6229860.9909690.6174730.033*
C730.6968 (6)0.8569 (6)0.6045 (5)0.027 (3)
H73A0.6794430.8344350.6296710.040*
H73B0.7403890.8609600.6160000.040*
H73C0.6883690.8319320.5736810.040*
C740.6854 (10)0.9574 (8)0.5547 (8)0.071 (7)
H74A0.6746870.9316950.5243360.107*
H74B0.7287330.9665020.5614370.107*
H74C0.6630640.9984480.5506330.107*
C750.6406 (6)0.9670 (6)0.8089 (5)0.031 (3)
H750.6148081.0035410.8078730.037*
C760.7229 (6)0.9033 (7)0.8557 (5)0.035 (3)
H76A0.7208480.8828600.8234010.053*
H76B0.7131280.8711450.8790680.053*
H76C0.7636400.9200420.8679400.053*
C770.6779 (9)0.9924 (10)0.8959 (7)0.070 (6)
H77A0.7105981.0243220.9020930.106*
H77B0.6820430.9624790.9239590.106*
H77C0.6391151.0149620.8916670.106*
C780.4793 (6)0.8156 (6)0.7013 (5)0.026 (3)
H780.4514310.8423100.6797860.031*
C790.5006 (7)0.7083 (6)0.7389 (6)0.036 (3)
H79A0.4965000.6668110.7210660.055*
H79B0.4897280.7023990.7711760.055*
H79C0.5423480.7233650.7435080.055*
C800.4006 (7)0.7340 (7)0.6904 (6)0.046 (4)
H80A0.3785160.7680240.6693350.070*
H80B0.3799540.7242640.7174540.070*
H80C0.4023800.6947320.6706810.070*
C810.5602 (5)0.4858 (6)0.8038 (4)0.024 (3)
H810.5461160.4608360.8281460.029*
C820.6105 (6)0.5832 (6)0.7820 (4)0.027 (3)
H82A0.5944900.5677960.7483080.041*
H82B0.6545590.5803970.7887800.041*
H82C0.5983460.6284390.7850830.041*
C830.6018 (7)0.5630 (6)0.8689 (4)0.034 (3)
H83A0.6456040.5665530.8794590.051*
H83B0.5865770.5307070.8894480.051*
H83C0.5832620.6052340.8725700.051*
C840.4933 (8)0.3843 (9)0.6166 (5)0.054 (5)
H840.4678320.3483930.6194040.065*
C850.5255 (9)0.4660 (7)0.5639 (6)0.053 (5)
H85A0.5200590.4749080.5284240.080*
H85B0.5097680.5025850.5802360.080*
H85C0.5684120.4603810.5779580.080*
C860.4538 (10)0.3788 (11)0.5272 (7)0.081 (7)
H86A0.4599630.4018520.4975800.122*
H86B0.4637710.3327480.5246040.122*
H86C0.4116590.3829320.5302120.122*
C870.8458 (6)0.3854 (6)0.5893 (4)0.030 (3)
H870.8663110.4231620.5816220.036*
C880.7893 (7)0.2882 (7)0.5596 (6)0.038 (3)
H88A0.7501150.2888710.5368010.057*
H88B0.7832160.2876380.5937120.057*
H88C0.8116150.2493420.5534420.057*
C890.8286 (6)0.3607 (7)0.5017 (5)0.038 (3)
H89A0.8403350.3215320.4858240.057*
H89B0.8592720.3943780.5023380.057*
H89C0.7898560.3765030.4830400.057*
O380.6116 (10)0.0975 (13)0.5449 (9)0.163 (9)
C900.5674 (10)0.1235 (13)0.5622 (9)0.105 (7)
H900.5600130.1109930.5935700.126*
N180.5335 (8)0.1669 (11)0.5356 (7)0.096 (5)
C910.5347 (13)0.1772 (15)0.4844 (9)0.119 (9)
H91A0.5062400.2116920.4711730.178*
H91B0.5753860.1899930.4812140.178*
H91C0.5233840.1369360.4659610.178*
C920.4858 (8)0.2058 (11)0.5529 (8)0.080 (7)
H92A0.4665870.2351250.5263880.120*
H92B0.4555750.1763900.5614980.120*
H92C0.5041290.2313500.5819490.120*
C930.3831 (11)0.5280 (12)0.9186 (10)0.083 (7)
H930.4201590.5104550.9357760.099*
C940.3322 (12)0.5958 (14)0.8572 (12)0.138 (13)
H94A0.3399930.6234350.8303010.206*
H94B0.3149640.6220550.8804910.206*
H94C0.3037370.5613860.8435350.206*
C950.4424 (12)0.5799 (14)0.8670 (14)0.129 (12)
H95A0.4362830.6104190.8392630.194*
H95B0.4710110.5983630.8949520.194*
H95C0.4583310.5388430.8569920.194*
C960.5703 (10)0.4431 (10)0.9748 (8)0.064 (5)
H960.5957020.4694580.9984410.076*
C970.5573 (14)0.3382 (11)0.9386 (9)0.110 (10)
H97A0.5872410.3038520.9387340.166*
H97B0.5524770.3629470.9077700.166*
H97C0.5186330.3185890.9412200.166*
C980.6153 (8)0.3516 (11)1.0221 (8)0.058 (5)
H98A0.6390590.3846081.0429970.087*
H98B0.6423700.3212411.0100620.087*
H98C0.5904320.3278771.0413310.087*
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Dy10.01184 (19)0.01240 (17)0.00799 (16)0.0002 (3)0.00181 (14)0.0003 (2)
Al10.0154 (17)0.0128 (14)0.0055 (14)0.0020 (15)0.0032 (12)0.0003 (11)
Al20.0135 (14)0.0125 (13)0.0089 (13)0.0015 (13)0.0026 (12)0.0017 (10)
Al30.0122 (14)0.0107 (12)0.0113 (13)0.0031 (12)0.0019 (11)0.0005 (10)
Al40.0104 (14)0.0126 (14)0.0121 (14)0.0009 (14)0.0027 (12)0.0009 (11)
Al50.0106 (12)0.0143 (12)0.0092 (12)0.0044 (12)0.0011 (10)0.0007 (9)
Al60.0138 (16)0.0106 (14)0.0062 (14)0.0021 (14)0.0002 (12)0.0002 (10)
Na10.016 (2)0.020 (2)0.018 (2)0.006 (2)0.0031 (18)0.0004 (16)
Na20.018 (2)0.019 (2)0.017 (2)0.009 (2)0.0036 (18)0.0020 (16)
Na30.019 (2)0.023 (2)0.020 (2)0.007 (2)0.0059 (19)0.0026 (17)
Na40.025 (2)0.023 (2)0.022 (2)0.004 (2)0.0086 (19)0.0033 (17)
Na50.020 (2)0.021 (2)0.020 (2)0.007 (2)0.0063 (19)0.0002 (17)
O10.01184 (19)0.01240 (17)0.00799 (16)0.0002 (3)0.00181 (14)0.0003 (2)
O20.022 (4)0.016 (3)0.009 (3)0.006 (3)0.005 (3)0.002 (2)
O30.021 (4)0.012 (3)0.011 (3)0.001 (3)0.005 (3)0.001 (3)
O40.011 (3)0.007 (3)0.013 (3)0.002 (3)0.004 (3)0.002 (2)
O50.009 (3)0.019 (3)0.011 (3)0.004 (3)0.001 (3)0.002 (2)
O60.016 (4)0.012 (3)0.012 (3)0.002 (3)0.004 (3)0.002 (3)
O70.0122 (14)0.0107 (12)0.0113 (13)0.0031 (12)0.0019 (11)0.0005 (10)
O80.012 (4)0.014 (3)0.014 (3)0.003 (3)0.000 (3)0.001 (3)
O90.014 (4)0.016 (4)0.021 (4)0.004 (4)0.008 (3)0.004 (3)
O100.007 (3)0.021 (3)0.011 (3)0.004 (3)0.000 (2)0.001 (3)
O110.009 (3)0.015 (4)0.014 (3)0.001 (3)0.001 (3)0.002 (3)
O120.017 (4)0.015 (3)0.013 (3)0.004 (3)0.006 (3)0.003 (3)
O130.0106 (12)0.0143 (12)0.0092 (12)0.0044 (12)0.0011 (10)0.0007 (9)
O140.011 (3)0.025 (4)0.013 (3)0.001 (3)0.003 (2)0.003 (3)
O150.016 (4)0.024 (4)0.010 (4)0.004 (4)0.000 (3)0.000 (3)
O160.009 (3)0.014 (3)0.015 (3)0.005 (3)0.004 (3)0.001 (3)
O170.019 (4)0.017 (4)0.010 (3)0.004 (3)0.000 (3)0.006 (3)
O180.013 (3)0.018 (4)0.013 (3)0.004 (3)0.005 (3)0.003 (3)
O190.014 (3)0.008 (3)0.015 (3)0.006 (3)0.001 (3)0.001 (2)
O200.024 (4)0.020 (4)0.017 (4)0.006 (4)0.001 (3)0.002 (3)
O210.017 (4)0.015 (3)0.016 (4)0.001 (3)0.005 (3)0.000 (3)
O220.011 (3)0.015 (3)0.004 (3)0.000 (3)0.003 (3)0.001 (2)
O230.017 (4)0.016 (3)0.013 (3)0.005 (3)0.002 (3)0.001 (3)
O240.023 (4)0.016 (4)0.011 (4)0.009 (4)0.000 (3)0.003 (3)
O250.014 (3)0.016 (3)0.006 (3)0.003 (3)0.003 (3)0.002 (2)
O260.018 (4)0.019 (4)0.007 (3)0.010 (3)0.001 (3)0.005 (3)
O270.013 (3)0.018 (3)0.012 (3)0.003 (3)0.001 (3)0.000 (2)
O280.016 (4)0.018 (4)0.015 (3)0.009 (3)0.004 (3)0.007 (3)
O290.030 (5)0.045 (5)0.040 (6)0.001 (5)0.006 (4)0.009 (4)
O300.022 (4)0.022 (4)0.030 (5)0.000 (4)0.001 (4)0.004 (3)
O310.031 (5)0.059 (7)0.019 (5)0.008 (6)0.003 (4)0.001 (4)
O320.024 (4)0.020 (4)0.025 (4)0.008 (4)0.011 (4)0.008 (3)
O330.026 (5)0.026 (4)0.020 (4)0.010 (4)0.002 (4)0.004 (3)
O340.022 (4)0.022 (4)0.028 (4)0.006 (4)0.007 (4)0.003 (3)
O350.021 (4)0.029 (4)0.023 (4)0.005 (4)0.004 (4)0.007 (3)
O360.024 (4)0.034 (5)0.018 (4)0.011 (4)0.004 (4)0.002 (3)
O370.032 (5)0.041 (5)0.023 (4)0.003 (5)0.000 (4)0.003 (4)
O390.085 (11)0.079 (10)0.103 (12)0.021 (10)0.015 (10)0.034 (9)
O400.094 (11)0.063 (8)0.075 (10)0.024 (9)0.015 (9)0.004 (7)
O410.115 (17)0.087 (16)0.095 (17)0.015 (15)0.034 (15)0.012 (13)
C990.083 (11)0.074 (10)0.075 (11)0.008 (10)0.020 (10)0.000 (9)
N210.081 (9)0.079 (9)0.077 (10)0.010 (8)0.018 (9)0.010 (8)
C1000.085 (15)0.100 (14)0.083 (15)0.023 (14)0.014 (13)0.025 (13)
C1010.077 (18)0.079 (16)0.076 (16)0.013 (15)0.010 (16)0.004 (14)
O41B0.113 (18)0.117 (17)0.118 (18)0.021 (16)0.028 (15)0.040 (15)
C99B0.083 (11)0.085 (10)0.081 (11)0.013 (10)0.014 (10)0.014 (10)
N21B0.081 (9)0.078 (9)0.078 (10)0.010 (8)0.016 (9)0.007 (8)
C1020.078 (14)0.085 (14)0.073 (14)0.012 (13)0.036 (12)0.005 (12)
C1030.066 (17)0.062 (15)0.058 (15)0.014 (14)0.021 (14)0.012 (13)
O420.102 (12)0.091 (10)0.091 (12)0.034 (10)0.033 (10)0.036 (9)
N10.012 (4)0.010 (4)0.012 (4)0.000 (3)0.006 (3)0.002 (3)
N20.006 (3)0.016 (3)0.012 (3)0.001 (3)0.001 (3)0.001 (3)
N30.012 (4)0.014 (3)0.008 (4)0.001 (3)0.001 (3)0.001 (3)
N40.007 (3)0.013 (3)0.020 (4)0.001 (3)0.004 (3)0.004 (3)
N50.012 (3)0.013 (3)0.008 (2)0.003 (2)0.000 (2)0.0011 (19)
N60.016 (4)0.016 (4)0.016 (4)0.001 (4)0.006 (4)0.001 (3)
N70.018 (4)0.024 (4)0.009 (4)0.001 (4)0.005 (3)0.001 (3)
N80.013 (4)0.014 (4)0.008 (4)0.003 (4)0.002 (3)0.002 (3)
N90.023 (5)0.012 (4)0.009 (4)0.002 (4)0.007 (3)0.003 (3)
N100.038 (7)0.049 (7)0.033 (6)0.015 (7)0.000 (6)0.001 (5)
N110.035 (6)0.030 (6)0.034 (6)0.007 (6)0.009 (5)0.001 (5)
N120.043 (7)0.025 (5)0.029 (6)0.008 (6)0.022 (5)0.005 (4)
N130.032 (6)0.036 (6)0.026 (6)0.017 (6)0.009 (5)0.010 (5)
N140.027 (6)0.028 (5)0.034 (6)0.003 (5)0.010 (5)0.000 (4)
N150.025 (5)0.025 (5)0.014 (4)0.004 (5)0.006 (4)0.004 (3)
N160.064 (10)0.068 (9)0.035 (7)0.020 (9)0.003 (7)0.002 (6)
N170.026 (5)0.031 (5)0.024 (5)0.005 (5)0.006 (5)0.001 (4)
N190.081 (13)0.096 (13)0.056 (11)0.019 (13)0.009 (10)0.013 (10)
N200.085 (12)0.059 (9)0.038 (8)0.041 (9)0.008 (8)0.011 (6)
C10.013 (5)0.008 (4)0.009 (4)0.001 (4)0.002 (4)0.001 (3)
C20.012 (5)0.014 (5)0.015 (5)0.003 (4)0.001 (4)0.001 (4)
C30.024 (6)0.022 (5)0.017 (5)0.008 (5)0.005 (5)0.005 (4)
C40.039 (7)0.029 (6)0.012 (5)0.023 (6)0.001 (5)0.003 (4)
C50.031 (7)0.020 (6)0.023 (6)0.016 (6)0.006 (5)0.010 (4)
C60.023 (6)0.021 (6)0.020 (5)0.004 (5)0.004 (5)0.004 (4)
C70.017 (5)0.020 (5)0.008 (5)0.001 (5)0.001 (4)0.006 (4)
C80.007 (3)0.019 (3)0.013 (4)0.002 (3)0.001 (3)0.002 (3)
C90.013 (4)0.018 (5)0.020 (5)0.002 (4)0.005 (4)0.002 (4)
C100.015 (5)0.022 (6)0.028 (6)0.002 (6)0.006 (5)0.002 (5)
C110.016 (6)0.035 (7)0.035 (7)0.001 (6)0.011 (5)0.001 (6)
C120.020 (6)0.031 (6)0.024 (6)0.002 (6)0.006 (5)0.001 (5)
C130.020 (6)0.017 (6)0.025 (6)0.009 (6)0.001 (5)0.007 (4)
C140.009 (5)0.016 (5)0.015 (5)0.003 (5)0.003 (4)0.004 (4)
C150.008 (5)0.017 (5)0.014 (5)0.002 (5)0.001 (4)0.001 (4)
C160.006 (5)0.014 (6)0.021 (6)0.002 (5)0.004 (4)0.001 (4)
C170.009 (6)0.018 (6)0.046 (8)0.005 (6)0.002 (6)0.001 (5)
C180.024 (7)0.018 (7)0.076 (11)0.002 (7)0.009 (8)0.010 (7)
C190.027 (8)0.018 (6)0.102 (15)0.011 (7)0.019 (9)0.005 (7)
C200.017 (6)0.017 (6)0.061 (10)0.000 (6)0.004 (7)0.003 (6)
C210.009 (6)0.011 (5)0.031 (7)0.001 (6)0.005 (5)0.002 (5)
C220.010 (4)0.014 (4)0.015 (4)0.004 (4)0.001 (4)0.006 (3)
C230.012 (5)0.021 (6)0.024 (6)0.000 (5)0.008 (5)0.003 (4)
C240.030 (7)0.023 (6)0.031 (6)0.001 (6)0.017 (6)0.002 (5)
C250.022 (6)0.023 (6)0.054 (9)0.001 (6)0.022 (6)0.006 (6)
C260.017 (6)0.036 (7)0.043 (8)0.008 (6)0.016 (6)0.004 (6)
C270.019 (6)0.019 (6)0.032 (6)0.001 (6)0.009 (5)0.002 (5)
C280.017 (5)0.014 (5)0.014 (5)0.001 (5)0.004 (4)0.001 (4)
C290.012 (3)0.013 (3)0.008 (2)0.003 (2)0.000 (2)0.0011 (19)
C300.013 (5)0.019 (5)0.009 (3)0.004 (4)0.000 (3)0.002 (3)
C310.015 (6)0.036 (7)0.011 (5)0.009 (6)0.000 (5)0.003 (5)
C320.022 (6)0.047 (8)0.015 (5)0.012 (7)0.003 (5)0.004 (5)
C330.021 (6)0.040 (7)0.015 (5)0.006 (6)0.001 (5)0.009 (5)
C340.017 (5)0.033 (6)0.014 (5)0.005 (5)0.001 (4)0.009 (4)
C350.018 (5)0.014 (5)0.010 (4)0.000 (5)0.001 (4)0.002 (3)
C360.014 (5)0.012 (4)0.010 (4)0.002 (4)0.001 (4)0.003 (3)
C370.020 (6)0.014 (5)0.015 (5)0.006 (5)0.006 (5)0.004 (4)
C380.032 (7)0.026 (6)0.014 (5)0.008 (6)0.003 (5)0.001 (4)
C390.054 (9)0.044 (8)0.018 (6)0.025 (8)0.018 (6)0.011 (5)
C400.029 (7)0.050 (8)0.024 (6)0.023 (7)0.013 (5)0.014 (5)
C410.025 (6)0.030 (6)0.019 (6)0.014 (6)0.008 (5)0.005 (4)
C420.012 (5)0.016 (5)0.014 (5)0.006 (5)0.003 (4)0.002 (4)
C430.010 (5)0.020 (5)0.012 (5)0.008 (4)0.002 (4)0.003 (4)
C440.018 (5)0.020 (5)0.009 (4)0.002 (5)0.002 (4)0.004 (4)
C450.018 (5)0.031 (6)0.018 (5)0.005 (5)0.001 (5)0.004 (4)
C460.026 (6)0.028 (6)0.023 (6)0.003 (6)0.012 (5)0.012 (4)
C470.029 (6)0.037 (7)0.011 (5)0.009 (6)0.005 (5)0.004 (4)
C480.024 (6)0.023 (5)0.017 (5)0.004 (5)0.002 (5)0.003 (4)
C490.016 (5)0.018 (5)0.018 (5)0.003 (4)0.005 (4)0.001 (4)
C500.015 (5)0.015 (5)0.011 (5)0.004 (5)0.004 (4)0.001 (3)
C510.009 (5)0.020 (5)0.012 (5)0.004 (5)0.002 (4)0.003 (4)
C520.020 (6)0.015 (5)0.015 (5)0.004 (5)0.002 (4)0.006 (4)
C530.027 (6)0.016 (5)0.028 (6)0.000 (6)0.001 (5)0.014 (4)
C540.030 (7)0.035 (7)0.020 (6)0.009 (7)0.003 (5)0.012 (5)
C550.018 (5)0.026 (6)0.017 (5)0.007 (5)0.002 (5)0.009 (4)
C560.018 (5)0.015 (5)0.012 (5)0.000 (5)0.005 (4)0.001 (3)
C570.010 (5)0.015 (5)0.012 (4)0.003 (4)0.002 (4)0.003 (3)
C580.018 (5)0.018 (5)0.006 (4)0.009 (4)0.005 (4)0.002 (3)
C590.014 (5)0.018 (5)0.015 (5)0.002 (5)0.001 (4)0.002 (4)
C600.019 (5)0.025 (5)0.017 (5)0.003 (5)0.008 (4)0.008 (4)
C610.022 (6)0.020 (5)0.012 (5)0.000 (5)0.005 (4)0.003 (4)
C620.022 (5)0.019 (5)0.009 (4)0.001 (5)0.004 (4)0.001 (3)
C630.020 (5)0.013 (4)0.010 (4)0.001 (4)0.002 (4)0.002 (3)
C640.022 (6)0.021 (6)0.024 (6)0.006 (5)0.008 (5)0.007 (4)
C650.051 (9)0.053 (9)0.015 (6)0.004 (8)0.000 (6)0.012 (6)
C660.042 (8)0.043 (8)0.032 (7)0.007 (8)0.009 (7)0.005 (6)
C670.049 (10)0.047 (10)0.051 (10)0.001 (9)0.001 (8)0.015 (8)
C680.078 (14)0.069 (12)0.057 (12)0.035 (12)0.000 (11)0.016 (9)
C690.031 (7)0.034 (7)0.021 (6)0.004 (7)0.001 (5)0.004 (5)
C700.041 (8)0.029 (7)0.044 (8)0.014 (8)0.002 (7)0.009 (6)
C710.035 (8)0.043 (8)0.035 (8)0.020 (8)0.004 (6)0.003 (6)
C720.035 (7)0.017 (6)0.035 (7)0.008 (6)0.016 (6)0.003 (5)
C730.031 (7)0.020 (6)0.035 (7)0.014 (6)0.020 (6)0.006 (5)
C740.110 (17)0.037 (9)0.090 (14)0.032 (11)0.076 (14)0.031 (9)
C750.028 (7)0.025 (6)0.036 (7)0.006 (6)0.000 (6)0.012 (5)
C760.030 (7)0.044 (8)0.025 (7)0.002 (8)0.012 (6)0.002 (6)
C770.068 (12)0.081 (13)0.052 (11)0.026 (12)0.011 (9)0.043 (10)
C780.025 (6)0.023 (6)0.033 (7)0.001 (6)0.011 (6)0.003 (5)
C790.036 (8)0.031 (7)0.043 (8)0.002 (7)0.011 (7)0.005 (6)
C800.043 (9)0.043 (8)0.047 (9)0.008 (8)0.006 (7)0.006 (7)
C810.022 (6)0.027 (6)0.026 (6)0.001 (6)0.009 (5)0.004 (5)
C820.038 (7)0.024 (6)0.022 (6)0.008 (6)0.010 (5)0.004 (4)
C830.054 (9)0.030 (7)0.018 (6)0.012 (7)0.003 (6)0.005 (5)
C840.048 (9)0.089 (13)0.024 (7)0.032 (10)0.003 (7)0.011 (8)
C850.092 (14)0.042 (8)0.034 (8)0.022 (10)0.034 (9)0.012 (6)
C860.085 (15)0.119 (18)0.033 (9)0.015 (15)0.003 (10)0.009 (10)
C870.033 (6)0.033 (6)0.022 (6)0.005 (6)0.001 (5)0.003 (5)
C880.041 (8)0.029 (7)0.045 (9)0.008 (7)0.010 (7)0.001 (6)
C890.033 (7)0.062 (9)0.022 (6)0.008 (7)0.012 (6)0.002 (6)
O380.114 (15)0.22 (2)0.145 (18)0.032 (16)0.013 (14)0.092 (16)
C900.068 (12)0.161 (18)0.080 (13)0.006 (13)0.000 (10)0.039 (12)
N180.064 (10)0.161 (15)0.059 (10)0.014 (11)0.001 (8)0.025 (10)
C910.115 (18)0.17 (2)0.082 (16)0.025 (18)0.036 (15)0.006 (16)
C920.045 (10)0.122 (17)0.073 (13)0.018 (12)0.011 (10)0.056 (12)
C930.061 (14)0.087 (17)0.097 (19)0.026 (15)0.008 (14)0.043 (14)
C940.089 (19)0.16 (3)0.16 (3)0.08 (2)0.00 (2)0.08 (2)
C950.084 (19)0.10 (2)0.20 (4)0.001 (19)0.04 (2)0.04 (2)
C960.069 (13)0.064 (12)0.064 (13)0.017 (12)0.028 (11)0.021 (10)
C970.15 (3)0.087 (17)0.079 (18)0.042 (18)0.019 (17)0.010 (13)
C980.025 (9)0.074 (13)0.073 (14)0.004 (10)0.005 (9)0.004 (11)
Geometric parameters (Å, º) top
Dy1—O72.297 (7)N19—C951.44 (3)
Dy1—O42.327 (6)N20—C961.27 (2)
Dy1—O132.364 (7)N20—C981.42 (2)
Dy1—O222.398 (6)N20—C971.48 (3)
Dy1—O162.427 (7)C1—C21.448 (13)
Dy1—O12.430 (6)C2—C71.409 (14)
Dy1—O102.439 (7)C2—C31.417 (14)
Dy1—O192.454 (7)C3—C41.385 (15)
Dy1—O252.643 (6)C3—H30.9500
Dy1—Al53.369 (3)C4—C51.389 (15)
Dy1—Al43.383 (3)C4—H40.9500
Dy1—Al23.445 (3)C5—C61.384 (15)
Al1—O211.748 (8)C5—H50.9500
Al1—O241.766 (8)C6—C71.400 (15)
Al1—O21.855 (7)C6—H60.9500
Al1—O11.883 (7)C8—C91.464 (15)
Al1—N81.930 (9)C9—C101.385 (16)
Al2—O31.823 (7)C9—C141.411 (15)
Al2—O41.864 (7)C10—C111.370 (17)
Al2—O51.903 (8)C10—H100.9500
Al2—O261.909 (7)C11—C121.371 (18)
Al2—N11.948 (8)C11—H110.9500
Al2—O251.954 (7)C12—C131.381 (18)
Al2—Na33.000 (5)C12—H120.9500
Al3—O181.843 (7)C13—C141.433 (15)
Al3—O71.884 (8)C13—H130.9500
Al3—O61.889 (8)C15—C161.460 (15)
Al3—O81.902 (8)C16—C171.389 (17)
Al3—N21.957 (9)C16—C211.424 (15)
Al3—N62.078 (9)C17—C181.358 (18)
Al3—Na22.977 (5)C17—H170.9500
Al4—O91.834 (8)C18—C191.40 (2)
Al4—O111.885 (8)C18—H180.9500
Al4—O231.900 (8)C19—C201.371 (19)
Al4—O221.902 (7)C19—H190.9500
Al4—O101.939 (8)C20—C211.416 (17)
Al4—N31.982 (9)C20—H200.9500
Al4—Na13.382 (5)C22—C231.481 (15)
Al5—O121.802 (7)C23—C241.384 (15)
Al5—O141.884 (8)C23—C281.414 (15)
Al5—O131.896 (7)C24—C251.371 (17)
Al5—O281.903 (7)C24—H240.9500
Al5—O191.929 (7)C25—C261.388 (18)
Al5—N42.054 (9)C25—H250.9500
Al5—Na53.291 (5)C26—C271.392 (17)
Al5—Na43.548 (5)C26—H260.9500
Al6—O151.781 (9)C27—C281.400 (15)
Al6—O271.790 (7)C27—H270.9500
Al6—O171.819 (8)C29—C301.477 (13)
Al6—O161.881 (8)C30—C351.411 (14)
Al6—N51.934 (9)C30—C311.415 (16)
Na1—O302.325 (10)C31—C321.377 (16)
Na1—O92.325 (9)C31—H310.9500
Na1—O312.367 (10)C32—C331.368 (17)
Na1—O35i2.429 (9)C32—H320.9500
Na1—O36i2.458 (9)C33—C341.377 (16)
Na1—O112.550 (8)C33—H330.9500
Na1—Na3i3.057 (6)C34—C351.404 (13)
Na1—C693.101 (13)C34—H340.9500
Na2—O332.319 (9)C36—C371.472 (14)
Na2—O342.327 (9)C37—C421.410 (14)
Na2—O322.346 (8)C37—C381.423 (14)
Na2—O62.384 (8)C38—C391.361 (17)
Na2—O82.394 (8)C38—H380.9500
Na2—O182.399 (8)C39—C401.399 (18)
Na2—Na5ii2.969 (6)C39—H390.9500
Na3—O362.247 (10)C40—C411.377 (16)
Na3—O262.330 (8)C40—H400.9500
Na3—O352.342 (9)C41—C421.409 (14)
Na3—O30iii2.373 (9)C41—H410.9500
Na3—O32.516 (8)C43—C441.504 (13)
Na3—O52.555 (8)C44—C451.396 (15)
Na4—O292.319 (10)C44—C491.398 (15)
Na4—O252.327 (8)C45—C461.386 (15)
Na4—O372.331 (9)C45—H450.9500
Na4—O202.403 (9)C46—C471.387 (17)
Na4—O192.426 (8)C46—H460.9500
Na4—O282.826 (9)C47—C481.373 (16)
Na4—C642.931 (13)C47—H470.9500
Na4—C432.982 (11)C48—C491.420 (14)
Na4—Na53.625 (6)C48—H480.9500
Na5—O202.305 (9)C50—C511.462 (14)
Na5—O282.362 (8)C51—C521.397 (14)
Na5—O33iv2.369 (10)C51—C561.429 (15)
Na5—O32iv2.398 (9)C52—C531.377 (15)
Na5—O122.411 (8)C52—H520.9500
Na5—O34iv2.416 (9)C53—C541.380 (18)
Na5—C433.106 (11)C53—H530.9500
Na5—C75iv3.116 (14)C54—C551.389 (16)
O1—N11.397 (10)C54—H540.9500
O2—C11.315 (11)C55—C561.408 (14)
O3—C71.352 (12)C55—H550.9500
O4—N21.404 (10)C57—C581.479 (12)
O5—C81.328 (12)C58—C591.395 (14)
O6—C141.315 (13)C58—C631.399 (14)
O7—N31.410 (11)C59—C601.377 (13)
O8—C151.315 (13)C59—H590.9500
O9—C211.319 (14)C60—C611.396 (15)
O10—N41.424 (11)C60—H600.9500
O11—C221.320 (13)C61—C621.375 (15)
O12—C281.341 (12)C61—H610.9500
O13—N51.405 (10)C62—C631.421 (13)
O14—C291.289 (11)C62—H620.9500
O15—C351.318 (13)C64—C651.500 (17)
O16—N61.421 (11)C65—H65A0.9800
O17—C361.306 (12)C65—H65B0.9800
O18—C421.329 (12)C65—H65C0.9800
O19—N71.381 (10)C66—H660.9500
O20—C431.250 (12)C67—H67A0.9800
O21—C491.334 (12)C67—H67B0.9800
O22—N81.416 (10)C67—H67C0.9800
O23—C501.318 (12)C68—H68A0.9800
O24—C561.335 (12)C68—H68B0.9800
O25—N91.394 (9)C68—H68C0.9800
O26—C571.284 (12)C69—H690.9500
O27—C631.353 (12)C70—H70A0.9800
O28—C641.286 (13)C70—H70B0.9800
O29—C641.248 (15)C70—H70C0.9800
O30—C661.236 (15)C71—H71A0.9800
O31—C691.228 (15)C71—H71B0.9800
O32—C721.234 (14)C71—H71C0.9800
O33—C751.236 (14)C72—H720.9500
O34—C781.249 (15)C73—H73A0.9800
O35—C811.244 (14)C73—H73B0.9800
O36—C841.236 (18)C73—H73C0.9800
O37—C871.251 (14)C74—H74A0.9800
O39—C931.29 (3)C74—H74B0.9800
O40—C961.27 (2)C74—H74C0.9800
O41—C991.27 (3)C75—H750.9500
C99—N211.31 (3)C76—H76A0.9800
C99—H990.9500C76—H76B0.9800
N21—C1001.45 (3)C76—H76C0.9800
N21—C1011.46 (3)C77—H77A0.9800
C100—H10G0.9800C77—H77B0.9800
C100—H10H0.9800C77—H77C0.9800
C100—H10I0.9800C78—H780.9500
C101—H10J0.9800C79—H79A0.9800
C101—H10K0.9800C79—H79B0.9800
C101—H10L0.9800C79—H79C0.9800
O41B—C99B1.29 (3)C80—H80A0.9800
C99B—N21B1.33 (3)C80—H80B0.9800
C99B—H99B0.9500C80—H80C0.9800
N21B—C1021.45 (3)C81—H810.9500
N21B—C1031.46 (3)C82—H82A0.9800
C102—H10M0.9800C82—H82B0.9800
C102—H10N0.9800C82—H82C0.9800
C102—H10O0.9800C83—H83A0.9800
C103—H10P0.9800C83—H83B0.9800
C103—H10Q0.9800C83—H83C0.9800
C103—H10R0.9800C84—H840.9500
O42—H42A0.8399C85—H85A0.9800
O42—H42B0.8440C85—H85B0.9800
N1—C11.322 (12)C85—H85C0.9800
N2—C81.295 (13)C86—H86A0.9800
N3—C151.316 (13)C86—H86B0.9800
N4—C221.300 (13)C86—H86C0.9800
N5—C291.328 (12)C87—H870.9500
N6—C361.318 (12)C88—H88A0.9800
N7—C431.338 (12)C88—H88B0.9800
N7—H70.90 (3)C88—H88C0.9800
N8—C501.293 (13)C89—H89A0.9800
N9—C571.311 (13)C89—H89B0.9800
N9—H90.91 (3)C89—H89C0.9800
N10—C661.319 (16)O38—C901.31 (2)
N10—C671.432 (18)C90—N181.30 (2)
N10—C681.492 (18)C90—H900.9500
N11—C691.338 (17)N18—C911.43 (2)
N11—C711.414 (17)N18—C921.50 (2)
N11—C701.455 (16)C91—H91A0.9800
N12—C721.333 (15)C91—H91B0.9800
N12—C731.450 (15)C91—H91C0.9800
N12—C741.461 (17)C92—H92A0.9800
N13—C751.344 (17)C92—H92B0.9800
N13—C761.434 (17)C92—H92C0.9800
N13—C771.461 (18)C93—H930.9500
N14—C781.332 (15)C94—H94A0.9800
N14—C801.441 (18)C94—H94B0.9800
N14—C791.457 (17)C94—H94C0.9800
N15—C811.338 (15)C95—H95A0.9800
N15—C831.458 (14)C95—H95B0.9800
N15—C821.463 (14)C95—H95C0.9800
N16—C841.335 (19)C96—H960.9500
N16—C851.45 (2)C97—H97A0.9800
N16—C861.48 (2)C97—H97B0.9800
N17—C871.341 (16)C97—H97C0.9800
N17—C881.444 (17)C98—H98A0.9800
N17—C891.450 (15)C98—H98B0.9800
N19—C931.32 (3)C98—H98C0.9800
N19—C941.39 (3)
O7—Dy1—O473.6 (2)Na2—O33—Na5ii78.6 (3)
O7—Dy1—O13136.2 (2)C78—O34—Na2149.6 (7)
O4—Dy1—O13113.6 (2)C78—O34—Na5ii120.9 (8)
O7—Dy1—O2272.4 (2)Na2—O34—Na5ii77.5 (3)
O4—Dy1—O22126.8 (2)C81—O35—Na3138.3 (8)
O13—Dy1—O22119.3 (2)C81—O35—Na1iii126.1 (8)
O7—Dy1—O1673.0 (2)Na3—O35—Na1iii79.7 (3)
O4—Dy1—O1671.8 (2)C84—O36—Na3153.2 (10)
O13—Dy1—O1669.4 (2)C84—O36—Na1iii118.5 (9)
O22—Dy1—O16131.9 (2)Na3—O36—Na1iii80.9 (3)
O7—Dy1—O189.4 (2)C87—O37—Na4124.8 (8)
O4—Dy1—O173.4 (2)O41—C99—N21125 (3)
O13—Dy1—O1134.4 (2)O41—C99—H99117.5
O22—Dy1—O166.6 (2)N21—C99—H99117.5
O16—Dy1—O1144.2 (2)C99—N21—C100125 (3)
O7—Dy1—O1081.0 (3)C99—N21—C101121 (3)
O4—Dy1—O10148.0 (2)C100—N21—C101113 (3)
O13—Dy1—O1072.7 (2)N21—C100—H10G109.5
O22—Dy1—O1060.0 (2)N21—C100—H10H109.5
O16—Dy1—O1082.5 (2)H10G—C100—H10H109.5
O1—Dy1—O10126.2 (2)N21—C100—H10I109.5
O7—Dy1—O19149.8 (2)H10G—C100—H10I109.5
O4—Dy1—O19128.7 (2)H10H—C100—H10I109.5
O13—Dy1—O1960.0 (2)N21—C101—H10J109.5
O22—Dy1—O1977.4 (2)N21—C101—H10K109.5
O16—Dy1—O19129.4 (2)H10J—C101—H10K109.5
O1—Dy1—O1980.2 (2)N21—C101—H10L109.5
O10—Dy1—O1982.5 (2)H10J—C101—H10L109.5
O7—Dy1—O25131.2 (2)H10K—C101—H10L109.5
O4—Dy1—O2558.0 (2)O41B—C99B—N21B121 (3)
O13—Dy1—O2574.6 (2)O41B—C99B—H99B119.3
O22—Dy1—O25132.7 (2)N21B—C99B—H99B119.3
O16—Dy1—O2595.3 (2)C99B—N21B—C102121 (3)
O1—Dy1—O2572.9 (2)C99B—N21B—C103124 (3)
O10—Dy1—O25145.7 (2)C102—N21B—C103113 (3)
O19—Dy1—O2572.6 (2)N21B—C102—H10M109.5
O7—Dy1—Al5140.62 (19)N21B—C102—H10N109.5
O4—Dy1—Al5141.39 (16)H10M—C102—H10N109.5
O13—Dy1—Al533.10 (17)N21B—C102—H10O109.5
O22—Dy1—Al588.15 (17)H10M—C102—H10O109.5
O16—Dy1—Al598.22 (17)H10N—C102—H10O109.5
O1—Dy1—Al5114.30 (16)N21B—C103—H10P109.5
O10—Dy1—Al559.68 (17)N21B—C103—H10Q109.5
O19—Dy1—Al534.33 (17)H10P—C103—H10Q109.5
O25—Dy1—Al587.11 (16)N21B—C103—H10R109.5
O7—Dy1—Al458.53 (19)H10P—C103—H10R109.5
O4—Dy1—Al4131.45 (17)H10Q—C103—H10R109.5
O13—Dy1—Al4106.51 (17)H42A—O42—H42B108.6
O22—Dy1—Al433.20 (17)C1—N1—O1112.3 (7)
O16—Dy1—Al499.34 (17)C1—N1—Al2129.0 (7)
O1—Dy1—Al497.26 (16)O1—N1—Al2117.8 (5)
O10—Dy1—Al434.29 (17)C8—N2—O4110.4 (8)
O19—Dy1—Al494.52 (16)C8—N2—Al3133.5 (7)
O25—Dy1—Al4164.69 (14)O4—N2—Al3115.9 (6)
Al5—Dy1—Al486.44 (7)C15—N3—O7110.2 (8)
O7—Dy1—Al298.41 (19)C15—N3—Al4131.0 (7)
O4—Dy1—Al230.54 (16)O7—N3—Al4118.8 (5)
O13—Dy1—Al2106.82 (17)C22—N4—O10111.9 (8)
O22—Dy1—Al2121.50 (17)C22—N4—Al5127.9 (7)
O16—Dy1—Al295.72 (17)O10—N4—Al5118.1 (6)
O1—Dy1—Al255.48 (16)C29—N5—O13111.8 (7)
O10—Dy1—Al2178.18 (16)C29—N5—Al6130.8 (7)
O19—Dy1—Al298.76 (17)O13—N5—Al6117.4 (6)
O25—Dy1—Al234.36 (16)C36—N6—O16109.6 (8)
Al5—Dy1—Al2120.85 (7)C36—N6—Al3129.3 (7)
Al4—Dy1—Al2146.46 (7)O16—N6—Al3121.0 (6)
O21—Al1—O24111.3 (4)C43—N7—O19118.9 (8)
O21—Al1—O2102.3 (4)C43—N7—H7117 (4)
O24—Al1—O293.2 (4)O19—N7—H7117 (6)
O21—Al1—O1113.5 (4)C50—N8—O22111.6 (8)
O24—Al1—O1134.9 (4)C50—N8—Al1131.5 (7)
O2—Al1—O182.5 (3)O22—N8—Al1115.6 (5)
O21—Al1—N891.0 (4)C57—N9—O25116.5 (8)
O24—Al1—N890.2 (4)C57—N9—H9111 (4)
O2—Al1—N8164.0 (4)O25—N9—H9130 (5)
O1—Al1—N884.0 (3)C66—N10—C67123.0 (13)
O3—Al2—O4172.1 (4)C66—N10—C68119.6 (13)
O3—Al2—O590.9 (3)C67—N10—C68117.2 (13)
O4—Al2—O582.0 (3)C69—N11—C71119.8 (12)
O3—Al2—O2685.8 (3)C69—N11—C70121.0 (12)
O4—Al2—O2691.5 (3)C71—N11—C70118.9 (12)
O5—Al2—O2694.7 (3)C72—N12—C73123.2 (10)
O3—Al2—N189.8 (3)C72—N12—C74120.7 (11)
O4—Al2—N194.4 (3)C73—N12—C74116.1 (10)
O5—Al2—N198.8 (3)C75—N13—C76122.0 (10)
O26—Al2—N1165.9 (4)C75—N13—C77120.7 (12)
O3—Al2—O25108.1 (3)C76—N13—C77117.0 (12)
O4—Al2—O2578.8 (3)C78—N14—C80121.9 (12)
O5—Al2—O25160.5 (3)C78—N14—C79122.7 (12)
O26—Al2—O2582.7 (3)C80—N14—C79115.4 (11)
N1—Al2—O2586.0 (3)C81—N15—C83121.6 (10)
O3—Al2—Na356.8 (3)C81—N15—C82121.2 (9)
O4—Al2—Na3116.1 (2)C83—N15—C82116.6 (10)
O5—Al2—Na357.7 (2)C84—N16—C85121.6 (14)
O26—Al2—Na351.0 (2)C84—N16—C86121.2 (16)
N1—Al2—Na3135.3 (3)C85—N16—C86116.7 (15)
O25—Al2—Na3129.5 (2)C87—N17—C88121.4 (11)
O3—Al2—Dy1148.3 (3)C87—N17—C89120.6 (11)
O4—Al2—Dy139.4 (2)C88—N17—C89117.9 (11)
O5—Al2—Dy1114.4 (2)C93—N19—C94117 (2)
O26—Al2—Dy1109.4 (2)C93—N19—C95120 (2)
N1—Al2—Dy168.6 (2)C94—N19—C95122 (2)
O25—Al2—Dy149.8 (2)C96—N20—C98126.2 (17)
Na3—Al2—Dy1153.20 (13)C96—N20—C97118.7 (17)
O18—Al3—O7167.2 (4)C98—N20—C97113.6 (18)
O18—Al3—O686.1 (3)O2—C1—N1117.6 (8)
O7—Al3—O6102.3 (3)O2—C1—C2121.6 (8)
O18—Al3—O889.6 (3)N1—C1—C2120.8 (8)
O7—Al3—O881.0 (3)C7—C2—C3118.6 (9)
O6—Al3—O888.6 (3)C7—C2—C1122.8 (9)
O18—Al3—N2106.4 (4)C3—C2—C1118.7 (9)
O7—Al3—N284.3 (3)C4—C3—C2121.4 (10)
O6—Al3—N284.3 (3)C4—C3—H3119.3
O8—Al3—N2162.0 (4)C2—C3—H3119.3
O18—Al3—N686.4 (3)C3—C4—C5119.1 (10)
O7—Al3—N686.6 (3)C3—C4—H4120.4
O6—Al3—N6168.7 (4)C5—C4—H4120.4
O8—Al3—N699.8 (4)C6—C5—C4120.7 (10)
N2—Al3—N689.7 (4)C6—C5—H5119.6
O18—Al3—Na253.7 (2)C4—C5—H5119.6
O7—Al3—Na2124.3 (3)C5—C6—C7120.9 (10)
O6—Al3—Na253.1 (2)C5—C6—H6119.5
O8—Al3—Na253.4 (2)C7—C6—H6119.5
N2—Al3—Na2130.7 (3)O3—C7—C6117.7 (9)
N6—Al3—Na2127.0 (3)O3—C7—C2123.1 (9)
O9—Al4—O1188.1 (3)C6—C7—C2119.2 (9)
O9—Al4—O2392.9 (3)N2—C8—O5120.6 (9)
O11—Al4—O2398.5 (3)N2—C8—C9119.4 (9)
O9—Al4—O22173.6 (4)O5—C8—C9119.9 (9)
O11—Al4—O2295.9 (3)C10—C9—C14119.8 (10)
O23—Al4—O2281.6 (3)C10—C9—C8120.8 (10)
O9—Al4—O10107.6 (4)C14—C9—C8119.1 (10)
O11—Al4—O1081.3 (3)C11—C10—C9122.1 (11)
O23—Al4—O10159.5 (3)C11—C10—H10119.0
O22—Al4—O1078.0 (3)C9—C10—H10119.0
O9—Al4—N387.5 (3)C10—C11—C12119.8 (12)
O11—Al4—N3165.5 (4)C10—C11—H11120.1
O23—Al4—N395.4 (3)C12—C11—H11120.1
O22—Al4—N389.8 (3)C11—C12—C13120.0 (12)
O10—Al4—N386.9 (3)C11—C12—H12120.0
O9—Al4—Na140.8 (3)C13—C12—H12120.0
O11—Al4—Na148.3 (2)C12—C13—C14121.5 (11)
O23—Al4—Na1104.8 (2)C12—C13—H13119.2
O22—Al4—Na1143.9 (3)C14—C13—H13119.2
O10—Al4—Na190.5 (2)O6—C14—C9124.5 (10)
N3—Al4—Na1124.0 (3)O6—C14—C13118.9 (10)
O9—Al4—Dy1139.0 (3)C9—C14—C13116.6 (10)
O11—Al4—Dy1111.0 (2)O8—C15—N3119.6 (9)
O23—Al4—Dy1118.1 (2)O8—C15—C16120.7 (10)
O22—Al4—Dy143.64 (19)N3—C15—C16119.7 (9)
O10—Al4—Dy145.1 (2)C17—C16—C21119.3 (11)
N3—Al4—Dy164.8 (2)C17—C16—C15119.0 (10)
Na1—Al4—Dy1135.63 (12)C21—C16—C15121.7 (11)
O12—Al5—O1499.0 (3)C18—C17—C16122.2 (12)
O12—Al5—O13177.3 (4)C18—C17—H17118.9
O14—Al5—O1383.3 (3)C16—C17—H17118.9
O12—Al5—O2886.4 (3)C17—C18—C19119.4 (13)
O14—Al5—O2893.4 (3)C17—C18—H18120.3
O13—Al5—O2892.1 (3)C19—C18—H18120.3
O12—Al5—O1999.6 (3)C20—C19—C18120.2 (13)
O14—Al5—O19161.0 (3)C20—C19—H19119.9
O13—Al5—O1978.1 (3)C18—C19—H19119.9
O28—Al5—O1991.4 (3)C19—C20—C21121.1 (12)
O12—Al5—N490.0 (3)C19—C20—H20119.4
O14—Al5—N491.3 (3)C21—C20—H20119.4
O13—Al5—N491.3 (3)O9—C21—C20119.9 (11)
O28—Al5—N4174.5 (3)O9—C21—C16122.4 (11)
O19—Al5—N485.2 (3)C20—C21—C16117.7 (12)
O12—Al5—Na545.8 (2)N4—C22—O11119.8 (9)
O14—Al5—Na5113.9 (3)N4—C22—C23120.9 (10)
O13—Al5—Na5131.9 (2)O11—C22—C23119.4 (9)
O28—Al5—Na544.9 (2)C24—C23—C28119.0 (10)
O19—Al5—Na582.1 (2)C24—C23—C22118.8 (10)
N4—Al5—Na5130.1 (3)C28—C23—C22122.2 (9)
O12—Al5—Dy1136.1 (3)C25—C24—C23121.7 (12)
O14—Al5—Dy1116.1 (2)C25—C24—H24119.1
O13—Al5—Dy142.9 (2)C23—C24—H24119.1
O28—Al5—Dy1115.3 (3)C24—C25—C26120.2 (12)
O19—Al5—Dy145.9 (2)C24—C25—H25119.9
N4—Al5—Dy165.0 (2)C26—C25—H25119.9
Na5—Al5—Dy1126.97 (12)C25—C26—C27119.3 (11)
O12—Al5—Na4104.5 (3)C25—C26—H26120.4
O14—Al5—Na4136.1 (3)C27—C26—H26120.4
O13—Al5—Na472.9 (2)C26—C27—C28121.1 (11)
O28—Al5—Na452.5 (2)C26—C27—H27119.5
O19—Al5—Na440.4 (2)C28—C27—H27119.5
N4—Al5—Na4124.9 (3)O12—C28—C27116.9 (9)
Na5—Al5—Na463.88 (12)O12—C28—C23124.5 (9)
Dy1—Al5—Na468.39 (9)C27—C28—C23118.6 (10)
O15—Al6—O27115.3 (4)O14—C29—N5120.5 (8)
O15—Al6—O1790.6 (4)O14—C29—C30119.6 (9)
O27—Al6—O17100.2 (4)N5—C29—C30119.8 (8)
O15—Al6—O16132.8 (4)C35—C30—C31119.8 (9)
O27—Al6—O16111.8 (3)C35—C30—C29121.4 (9)
O17—Al6—O1683.4 (3)C31—C30—C29118.9 (9)
O15—Al6—N590.1 (4)C32—C31—C30120.7 (11)
O27—Al6—N593.8 (3)C32—C31—H31119.6
O17—Al6—N5164.2 (4)C30—C31—H31119.6
O16—Al6—N584.5 (3)C33—C32—C31119.4 (12)
O30—Na1—O9162.9 (3)C33—C32—H32120.3
O30—Na1—O31101.3 (4)C31—C32—H32120.3
O9—Na1—O3185.5 (3)C32—C33—C34121.3 (10)
O30—Na1—O35i79.8 (3)C32—C33—H33119.3
O9—Na1—O35i116.8 (3)C34—C33—H33119.3
O31—Na1—O35i84.3 (3)C33—C34—C35121.4 (10)
O30—Na1—O36i83.9 (3)C33—C34—H34119.3
O9—Na1—O36i94.6 (3)C35—C34—H34119.3
O31—Na1—O36i161.2 (4)O15—C35—C34119.0 (9)
O35i—Na1—O36i78.8 (3)O15—C35—C30123.6 (9)
O30—Na1—O1199.0 (3)C34—C35—C30117.4 (10)
O9—Na1—O1163.9 (3)O17—C36—N6120.2 (9)
O31—Na1—O11110.4 (3)O17—C36—C37118.1 (9)
O35i—Na1—O11165.0 (3)N6—C36—C37121.5 (9)
O36i—Na1—O1186.2 (3)C42—C37—C38119.5 (10)
O30—Na1—Na3i50.1 (2)C42—C37—C36122.1 (9)
O9—Na1—Na3i137.0 (3)C38—C37—C36118.4 (10)
O31—Na1—Na3i124.7 (3)C39—C38—C37122.0 (11)
O35i—Na1—Na3i48.9 (2)C39—C38—H38119.0
O36i—Na1—Na3i46.5 (2)C37—C38—H38119.0
O11—Na1—Na3i119.3 (2)C38—C39—C40118.3 (11)
O30—Na1—C69115.7 (4)C38—C39—H39120.8
O9—Na1—C6967.3 (3)C40—C39—H39120.8
O31—Na1—C6920.9 (3)C41—C40—C39121.2 (11)
O35i—Na1—C69101.7 (3)C41—C40—H40119.4
O36i—Na1—C69160.2 (4)C39—C40—H40119.4
O11—Na1—C6992.3 (3)C40—C41—C42121.5 (11)
Na3i—Na1—C69145.5 (3)C40—C41—H41119.3
O30—Na1—Al4132.0 (3)C42—C41—H41119.3
O9—Na1—Al431.00 (19)O18—C42—C41119.7 (9)
O31—Na1—Al494.5 (3)O18—C42—C37122.9 (9)
O35i—Na1—Al4147.3 (3)C41—C42—C37117.4 (9)
O36i—Na1—Al495.2 (2)O20—C43—N7121.6 (9)
O11—Na1—Al433.46 (18)O20—C43—C44121.1 (9)
Na3i—Na1—Al4140.74 (17)N7—C43—C44117.3 (9)
C69—Na1—Al473.5 (3)O20—C43—Na451.1 (5)
O33—Na2—O3486.5 (3)N7—C43—Na481.4 (6)
O33—Na2—O3282.0 (3)C44—C43—Na4143.6 (7)
O34—Na2—O3289.6 (3)O20—C43—Na540.6 (5)
O33—Na2—O6169.3 (4)N7—C43—Na5100.7 (6)
O34—Na2—O6104.0 (3)C44—C43—Na5127.2 (6)
O32—Na2—O699.7 (3)Na4—C43—Na573.1 (3)
O33—Na2—O8102.1 (3)C45—C44—C49120.2 (9)
O34—Na2—O8161.3 (3)C45—C44—C43117.2 (9)
O32—Na2—O8107.9 (3)C49—C44—C43122.4 (9)
O6—Na2—O867.3 (3)C46—C45—C44120.8 (11)
O33—Na2—O18113.5 (3)C46—C45—H45119.6
O34—Na2—O1894.6 (3)C44—C45—H45119.6
O32—Na2—O18164.1 (3)C45—C46—C47119.4 (10)
O6—Na2—O1864.4 (2)C45—C46—H46120.3
O8—Na2—O1866.8 (3)C47—C46—H46120.3
O33—Na2—Na5ii51.5 (2)C48—C47—C46120.6 (10)
O34—Na2—Na5ii52.6 (2)C48—C47—H47119.7
O32—Na2—Na5ii52.0 (2)C46—C47—H47119.7
O6—Na2—Na5ii137.2 (3)C47—C48—C49120.9 (11)
O8—Na2—Na5ii144.6 (3)C47—C48—H48119.6
O18—Na2—Na5ii140.4 (2)C49—C48—H48119.6
O33—Na2—Al3132.4 (3)O21—C49—C44122.0 (9)
O34—Na2—Al3123.5 (3)O21—C49—C48119.9 (9)
O32—Na2—Al3128.3 (2)C44—C49—C48118.1 (9)
O6—Na2—Al339.34 (19)N8—C50—O23120.2 (9)
O8—Na2—Al339.66 (19)N8—C50—C51119.1 (9)
O18—Na2—Al338.24 (18)O23—C50—C51120.8 (9)
Na5ii—Na2—Al3175.5 (2)C52—C51—C56118.5 (9)
O36—Na3—O26173.8 (4)C52—C51—C50119.9 (9)
O36—Na3—O3585.0 (3)C56—C51—C50121.5 (9)
O26—Na3—O35101.0 (3)C53—C52—C51122.8 (10)
O36—Na3—O30iii87.6 (3)C53—C52—H52118.6
O26—Na3—O30iii91.9 (3)C51—C52—H52118.6
O35—Na3—O30iii80.6 (3)C52—C53—C54118.7 (10)
O36—Na3—O3110.9 (3)C52—C53—H53120.7
O26—Na3—O363.1 (3)C54—C53—H53120.7
O35—Na3—O3163.9 (3)C53—C54—C55120.9 (11)
O30iii—Na3—O3101.5 (3)C53—C54—H54119.5
O36—Na3—O5109.6 (3)C55—C54—H54119.5
O26—Na3—O569.9 (3)C54—C55—C56121.2 (11)
O35—Na3—O5110.5 (3)C54—C55—H55119.4
O30iii—Na3—O5159.9 (3)C56—C55—H55119.4
O3—Na3—O563.1 (2)O24—C56—C55118.6 (10)
O36—Na3—Al2136.6 (3)O24—C56—C51123.6 (9)
O26—Na3—Al239.52 (18)C55—C56—C51117.9 (9)
O35—Na3—Al2128.3 (3)O26—C57—N9118.6 (9)
O30iii—Na3—Al2120.9 (3)O26—C57—C58121.2 (9)
O3—Na3—Al237.32 (17)N9—C57—C58120.2 (9)
O5—Na3—Al239.04 (18)C59—C58—C63121.5 (8)
O36—Na3—Na1iii52.6 (2)C59—C58—C57117.0 (9)
O26—Na3—Na1iii130.6 (3)C63—C58—C57121.5 (8)
O35—Na3—Na1iii51.4 (2)C60—C59—C58120.1 (10)
O30iii—Na3—Na1iii48.7 (2)C60—C59—H59119.9
O3—Na3—Na1iii140.5 (2)C58—C59—H59119.9
O5—Na3—Na1iii151.0 (3)C59—C60—C61119.7 (10)
Al2—Na3—Na1iii168.9 (2)C59—C60—H60120.2
O29—Na4—O2591.8 (3)C61—C60—H60120.2
O29—Na4—O37126.4 (4)C62—C61—C60120.5 (9)
O25—Na4—O37103.0 (3)C62—C61—H61119.7
O29—Na4—O20116.4 (3)C60—C61—H61119.7
O25—Na4—O20140.0 (3)C61—C62—C63121.0 (9)
O37—Na4—O2083.3 (3)C61—C62—H62119.5
O29—Na4—O19104.7 (3)C63—C62—H62119.5
O25—Na4—O1978.9 (3)O27—C63—C58121.9 (8)
O37—Na4—O19128.5 (3)O27—C63—C62120.8 (9)
O20—Na4—O1967.3 (3)C58—C63—C62117.2 (9)
O29—Na4—O2849.8 (3)O29—C64—O28121.7 (11)
O25—Na4—O28107.0 (3)O29—C64—C65120.0 (11)
O37—Na4—O28149.9 (3)O28—C64—C65118.2 (11)
O20—Na4—O2876.2 (3)O29—C64—Na449.3 (6)
O19—Na4—O2862.4 (2)O28—C64—Na472.5 (6)
O29—Na4—C6424.1 (3)C65—C64—Na4169.3 (9)
O25—Na4—C6499.2 (3)C64—C65—H65A109.5
O37—Na4—C64143.7 (4)C64—C65—H65B109.5
O20—Na4—C6497.7 (3)H65A—C65—H65B109.5
O19—Na4—C6483.7 (3)C64—C65—H65C109.5
O28—Na4—C6425.7 (3)H65A—C65—H65C109.5
O29—Na4—C43131.5 (3)H65B—C65—H65C109.5
O25—Na4—C43116.1 (3)O30—C66—N10126.7 (13)
O37—Na4—C4386.9 (3)O30—C66—H66116.7
O20—Na4—C4323.9 (2)N10—C66—H66116.7
O19—Na4—C4350.0 (3)N10—C67—H67A109.5
O28—Na4—C4383.2 (3)N10—C67—H67B109.5
C64—Na4—C43108.5 (3)H67A—C67—H67B109.5
O29—Na4—Al574.9 (3)N10—C67—H67C109.5
O25—Na4—Al588.0 (2)H67A—C67—H67C109.5
O37—Na4—Al5154.8 (3)H67B—C67—H67C109.5
O20—Na4—Al574.1 (2)N10—C68—H68A109.5
O19—Na4—Al531.01 (18)N10—C68—H68B109.5
O28—Na4—Al532.29 (15)H68A—C68—H68B109.5
C64—Na4—Al552.8 (2)N10—C68—H68C109.5
C43—Na4—Al567.9 (2)H68A—C68—H68C109.5
O29—Na4—Na578.4 (3)H68B—C68—H68C109.5
O25—Na4—Na5142.6 (2)O31—C69—N11124.4 (13)
O37—Na4—Na5111.9 (3)O31—C69—Na143.5 (6)
O20—Na4—Na538.7 (2)N11—C69—Na1131.7 (9)
O19—Na4—Na569.3 (2)O31—C69—H69117.8
O28—Na4—Na540.64 (17)N11—C69—H69117.8
C64—Na4—Na559.2 (2)Na1—C69—H6993.7
C43—Na4—Na555.1 (2)N11—C70—H70A109.5
Al5—Na4—Na554.61 (11)N11—C70—H70B109.5
O29—Na4—Dy1101.8 (3)H70A—C70—H70B109.5
O25—Na4—Dy141.49 (17)N11—C70—H70C109.5
O37—Na4—Dy1123.2 (3)H70A—C70—H70C109.5
O20—Na4—Dy1102.1 (2)H70B—C70—H70C109.5
O19—Na4—Dy137.38 (17)N11—C71—H71A109.5
O28—Na4—Dy183.02 (17)N11—C71—H71B109.5
C64—Na4—Dy192.2 (2)H71A—C71—H71B109.5
C43—Na4—Dy180.3 (2)N11—C71—H71C109.5
Al5—Na4—Dy153.63 (8)H71A—C71—H71C109.5
Na5—Na4—Dy1104.89 (13)H71B—C71—H71C109.5
O20—Na5—O2888.1 (3)O32—C72—N12125.9 (11)
O20—Na5—O33iv171.7 (4)O32—C72—H72117.1
O28—Na5—O33iv92.2 (3)N12—C72—H72117.1
O20—Na5—O32iv99.6 (3)N12—C73—H73A109.5
O28—Na5—O32iv172.1 (3)N12—C73—H73B109.5
O33iv—Na5—O32iv79.9 (3)H73A—C73—H73B109.5
O20—Na5—O1293.3 (3)N12—C73—H73C109.5
O28—Na5—O1264.2 (3)H73A—C73—H73C109.5
O33iv—Na5—O1294.2 (3)H73B—C73—H73C109.5
O32iv—Na5—O12116.8 (3)N12—C74—H74A109.5
O20—Na5—O34iv88.3 (3)N12—C74—H74B109.5
O28—Na5—O34iv92.0 (3)H74A—C74—H74B109.5
O33iv—Na5—O34iv83.4 (3)N12—C74—H74C109.5
O32iv—Na5—O34iv86.4 (3)H74A—C74—H74C109.5
O12—Na5—O34iv156.1 (3)H74B—C74—H74C109.5
O20—Na5—Na2iv123.6 (3)O33—C75—N13124.5 (12)
O28—Na5—Na2iv123.3 (2)O33—C75—Na5ii43.1 (6)
O33iv—Na5—Na2iv50.0 (2)N13—C75—Na5ii165.1 (9)
O32iv—Na5—Na2iv50.5 (2)O33—C75—H75117.7
O12—Na5—Na2iv140.9 (3)N13—C75—H75117.7
O34iv—Na5—Na2iv49.9 (2)Na5ii—C75—H7575.3
O20—Na5—C4320.7 (3)N13—C76—H76A109.5
O28—Na5—C4388.6 (3)N13—C76—H76B109.5
O33iv—Na5—C43167.6 (3)H76A—C76—H76B109.5
O32iv—Na5—C4399.2 (3)N13—C76—H76C109.5
O12—Na5—C4375.0 (3)H76A—C76—H76C109.5
O34iv—Na5—C43108.9 (3)H76B—C76—H76C109.5
Na2iv—Na5—C43137.8 (2)N13—C77—H77A109.5
O20—Na5—C75iv162.4 (4)N13—C77—H77B109.5
O28—Na5—C75iv74.6 (3)H77A—C77—H77B109.5
O33iv—Na5—C75iv20.9 (3)N13—C77—H77C109.5
O32iv—Na5—C75iv97.8 (4)H77A—C77—H77C109.5
O12—Na5—C75iv76.6 (3)H77B—C77—H77C109.5
O34iv—Na5—C75iv95.2 (3)O34—C78—N14126.0 (12)
Na2iv—Na5—C75iv70.3 (3)O34—C78—H78117.0
C43—Na5—C75iv151.1 (3)N14—C78—H78117.0
O20—Na5—Al580.7 (2)N14—C79—H79A109.5
O28—Na5—Al534.66 (18)N14—C79—H79B109.5
O33iv—Na5—Al5104.1 (2)H79A—C79—H79B109.5
O32iv—Na5—Al5148.3 (3)N14—C79—H79C109.5
O12—Na5—Al532.41 (18)H79A—C79—H79C109.5
O34iv—Na5—Al5125.3 (2)H79B—C79—H79C109.5
Na2iv—Na5—Al5151.41 (19)N14—C80—H80A109.5
C43—Na5—Al570.1 (2)N14—C80—H80B109.5
C75iv—Na5—Al583.2 (3)H80A—C80—H80B109.5
O20—Na5—Na440.7 (2)N14—C80—H80C109.5
O28—Na5—Na451.2 (2)H80A—C80—H80C109.5
O33iv—Na5—Na4135.9 (3)H80B—C80—H80C109.5
O32iv—Na5—Na4135.4 (3)O35—C81—N15123.2 (11)
O12—Na5—Na490.3 (2)O35—C81—H81118.4
O34iv—Na5—Na475.6 (2)N15—C81—H81118.4
Na2iv—Na5—Na4125.43 (18)N15—C82—H82A109.5
C43—Na5—Na451.9 (2)N15—C82—H82B109.5
C75iv—Na5—Na4123.9 (3)H82A—C82—H82B109.5
Al5—Na5—Na461.51 (11)N15—C82—H82C109.5
N1—O1—Al1112.7 (5)H82A—C82—H82C109.5
N1—O1—Dy1115.3 (5)H82B—C82—H82C109.5
Al1—O1—Dy1131.7 (3)N15—C83—H83A109.5
C1—O2—Al1114.4 (6)N15—C83—H83B109.5
C7—O3—Al2129.4 (6)H83A—C83—H83B109.5
C7—O3—Na3118.3 (6)N15—C83—H83C109.5
Al2—O3—Na385.9 (3)H83A—C83—H83C109.5
N2—O4—Al2114.8 (6)H83B—C83—H83C109.5
N2—O4—Dy1119.7 (5)O36—C84—N16124.6 (15)
Al2—O4—Dy1110.1 (3)O36—C84—H84117.7
C8—O5—Al2111.0 (6)N16—C84—H84117.7
C8—O5—Na3136.8 (6)N16—C85—H85A109.5
Al2—O5—Na383.2 (3)N16—C85—H85B109.5
C14—O6—Al3129.4 (6)H85A—C85—H85B109.5
C14—O6—Na2115.1 (6)N16—C85—H85C109.5
Al3—O6—Na287.5 (3)H85A—C85—H85C109.5
N3—O7—Al3115.2 (5)H85B—C85—H85C109.5
N3—O7—Dy1111.8 (5)N16—C86—H86A109.5
Al3—O7—Dy1121.5 (3)N16—C86—H86B109.5
C15—O8—Al3113.7 (6)H86A—C86—H86B109.5
C15—O8—Na2143.1 (7)N16—C86—H86C109.5
Al3—O8—Na286.9 (3)H86A—C86—H86C109.5
C21—O9—Al4131.1 (8)H86B—C86—H86C109.5
C21—O9—Na1120.6 (7)O37—C87—N17125.3 (12)
Al4—O9—Na1108.2 (4)O37—C87—H87117.4
N4—O10—Al4109.2 (5)N17—C87—H87117.4
N4—O10—Dy1104.6 (5)N17—C88—H88A109.5
Al4—O10—Dy1100.6 (3)N17—C88—H88B109.5
C22—O11—Al4111.1 (6)H88A—C88—H88B109.5
C22—O11—Na1114.8 (6)N17—C88—H88C109.5
Al4—O11—Na198.3 (3)H88A—C88—H88C109.5
C28—O12—Al5132.4 (6)H88B—C88—H88C109.5
C28—O12—Na5122.1 (6)N17—C89—H89A109.5
Al5—O12—Na5101.8 (3)N17—C89—H89B109.5
N5—O13—Al5111.4 (5)H89A—C89—H89B109.5
N5—O13—Dy1121.3 (5)N17—C89—H89C109.5
Al5—O13—Dy1104.0 (3)H89A—C89—H89C109.5
C29—O14—Al5112.0 (6)H89B—C89—H89C109.5
C35—O15—Al6133.4 (7)N18—C90—O38119 (3)
N6—O16—Al6112.8 (5)N18—C90—H90120.6
N6—O16—Dy1117.4 (5)O38—C90—H90120.6
Al6—O16—Dy1128.1 (3)C90—N18—C91122 (2)
C36—O17—Al6114.0 (6)C90—N18—C92125 (2)
C42—O18—Al3135.2 (7)C91—N18—C92113 (2)
C42—O18—Na2116.0 (6)N18—C91—H91A109.5
Al3—O18—Na288.1 (3)N18—C91—H91B109.5
N7—O19—Al5119.7 (6)H91A—C91—H91B109.5
N7—O19—Na4104.7 (5)N18—C91—H91C109.5
Al5—O19—Na4108.6 (3)H91A—C91—H91C109.5
N7—O19—Dy1117.5 (5)H91B—C91—H91C109.5
Al5—O19—Dy199.8 (3)N18—C92—H92A109.5
Na4—O19—Dy1105.7 (3)N18—C92—H92B109.5
C43—O20—Na5118.7 (7)H92A—C92—H92B109.5
C43—O20—Na4104.9 (6)N18—C92—H92C109.5
Na5—O20—Na4100.7 (3)H92A—C92—H92C109.5
C49—O21—Al1147.4 (7)H92B—C92—H92C109.5
N8—O22—Al4112.0 (5)O39—C93—N19126 (2)
N8—O22—Dy1122.3 (5)O39—C93—H93116.8
Al4—O22—Dy1103.2 (3)N19—C93—H93116.8
C50—O23—Al4112.0 (6)N19—C94—H94A109.5
C56—O24—Al1130.5 (7)N19—C94—H94B109.5
N9—O25—Al2106.4 (5)H94A—C94—H94B109.5
N9—O25—Na4110.5 (5)N19—C94—H94C109.5
Al2—O25—Na4133.1 (3)H94A—C94—H94C109.5
N9—O25—Dy1103.0 (5)H94B—C94—H94C109.5
Al2—O25—Dy195.9 (3)N19—C95—H95A109.5
Na4—O25—Dy1102.8 (3)N19—C95—H95B109.5
C57—O26—Al2110.6 (6)H95A—C95—H95B109.5
C57—O26—Na3159.9 (6)N19—C95—H95C109.5
Al2—O26—Na389.5 (3)H95A—C95—H95C109.5
C63—O27—Al6133.5 (6)H95B—C95—H95C109.5
C64—O28—Al5132.7 (7)O40—C96—N20130.1 (19)
C64—O28—Na5126.5 (7)O40—C96—H96114.9
Al5—O28—Na5100.4 (3)N20—C96—H96114.9
C64—O28—Na481.7 (7)N20—C97—H97A109.5
Al5—O28—Na495.2 (3)N20—C97—H97B109.5
Na5—O28—Na488.2 (3)H97A—C97—H97B109.5
C64—O29—Na4106.6 (8)N20—C97—H97C109.5
C66—O30—Na1147.7 (8)H97A—C97—H97C109.5
C66—O30—Na3i130.9 (8)H97B—C97—H97C109.5
Na1—O30—Na3i81.2 (3)N20—C98—H98A109.5
C69—O31—Na1115.5 (8)N20—C98—H98B109.5
C72—O32—Na2150.0 (8)H98A—C98—H98B109.5
C72—O32—Na5ii131.3 (8)N20—C98—H98C109.5
Na2—O32—Na5ii77.5 (3)H98A—C98—H98C109.5
C75—O33—Na2160.1 (9)H98B—C98—H98C109.5
C75—O33—Na5ii116.0 (8)
O21—Al1—O1—N1106.3 (6)Al3—O6—C14—C923.2 (14)
O24—Al1—O1—N180.8 (7)Na2—O6—C14—C9132.0 (9)
O2—Al1—O1—N16.2 (5)Al3—O6—C14—C13156.9 (8)
N8—Al1—O1—N1165.2 (6)Na2—O6—C14—C1348.1 (11)
O21—Al1—O1—Dy167.2 (5)C10—C9—C14—O6177.5 (10)
O24—Al1—O1—Dy1105.6 (6)C8—C9—C14—O68.5 (16)
O2—Al1—O1—Dy1167.4 (5)C10—C9—C14—C132.5 (15)
N8—Al1—O1—Dy121.3 (5)C8—C9—C14—C13171.5 (9)
O21—Al1—O2—C1118.6 (7)C12—C13—C14—O6177.1 (10)
O24—Al1—O2—C1128.8 (7)C12—C13—C14—C93.0 (16)
O1—Al1—O2—C16.0 (7)Al3—O8—C15—N30.2 (12)
N8—Al1—O2—C126.9 (17)Na2—O8—C15—N3119.2 (10)
O5—Al2—O3—C774.1 (9)Al3—O8—C15—C16178.0 (8)
O26—Al2—O3—C7168.7 (9)Na2—O8—C15—C1658.9 (15)
N1—Al2—O3—C724.7 (9)O7—N3—C15—O83.8 (12)
O25—Al2—O3—C7110.4 (9)Al4—N3—C15—O8175.0 (7)
Na3—Al2—O3—C7123.7 (9)O7—N3—C15—C16174.4 (9)
Dy1—Al2—O3—C770.2 (10)Al4—N3—C15—C166.8 (15)
O5—Al2—O3—Na349.6 (3)O8—C15—C16—C1712.6 (16)
O26—Al2—O3—Na345.0 (3)N3—C15—C16—C17165.6 (11)
N1—Al2—O3—Na3148.4 (3)O8—C15—C16—C21167.0 (11)
O25—Al2—O3—Na3125.9 (3)N3—C15—C16—C2114.8 (16)
Dy1—Al2—O3—Na3166.1 (3)C21—C16—C17—C181 (2)
O5—Al2—O4—N27.5 (5)C15—C16—C17—C18179.6 (13)
O26—Al2—O4—N2102.0 (6)C16—C17—C18—C193 (3)
N1—Al2—O4—N290.8 (6)C17—C18—C19—C203 (3)
O25—Al2—O4—N2175.8 (6)C18—C19—C20—C211 (3)
Na3—Al2—O4—N255.5 (6)Al4—O9—C21—C20154.8 (10)
Dy1—Al2—O4—N2138.6 (7)Na1—O9—C21—C2021.9 (15)
O5—Al2—O4—Dy1146.1 (3)Al4—O9—C21—C1627.7 (17)
O26—Al2—O4—Dy1119.4 (3)Na1—O9—C21—C16155.6 (9)
N1—Al2—O4—Dy147.8 (4)C19—C20—C21—O9178.7 (15)
O25—Al2—O4—Dy137.2 (3)C19—C20—C21—C161 (2)
Na3—Al2—O4—Dy1165.9 (2)C17—C16—C21—O9178.7 (11)
O18—Al3—O6—C1474.6 (8)C15—C16—C21—O90.9 (18)
O7—Al3—O6—C14115.2 (8)C17—C16—C21—C201.1 (18)
O8—Al3—O6—C14164.2 (8)C15—C16—C21—C20178.5 (12)
N2—Al3—O6—C1432.4 (8)O10—N4—C22—O110.1 (13)
N6—Al3—O6—C1426 (2)Al5—N4—C22—O11163.2 (7)
Na2—Al3—O6—C14120.9 (8)O10—N4—C22—C23179.3 (8)
O18—Al3—O6—Na246.3 (3)Al5—N4—C22—C2317.6 (14)
O7—Al3—O6—Na2123.9 (3)Al4—O11—C22—N418.9 (11)
O8—Al3—O6—Na243.4 (3)Na1—O11—C22—N491.5 (9)
N2—Al3—O6—Na2153.2 (3)Al4—O11—C22—C23161.9 (7)
N6—Al3—O6—Na295.0 (18)Na1—O11—C22—C2387.7 (9)
O18—Al3—O7—N338.9 (18)N4—C22—C23—C24169.6 (11)
O6—Al3—O7—N391.1 (6)O11—C22—C23—C249.6 (15)
O8—Al3—O7—N34.5 (6)N4—C22—C23—C2810.8 (15)
N2—Al3—O7—N3174.0 (6)O11—C22—C23—C28170.0 (9)
N6—Al3—O7—N395.9 (6)C28—C23—C24—C254.0 (19)
Na2—Al3—O7—N337.6 (7)C22—C23—C24—C25176.4 (12)
O18—Al3—O7—Dy1101.5 (15)C23—C24—C25—C262 (2)
O6—Al3—O7—Dy1128.5 (4)C24—C25—C26—C270 (2)
O8—Al3—O7—Dy1144.9 (4)C25—C26—C27—C280 (2)
N2—Al3—O7—Dy145.6 (4)Al5—O12—C28—C27170.0 (8)
N6—Al3—O7—Dy144.4 (4)Na5—O12—C28—C2735.9 (12)
Na2—Al3—O7—Dy1178.0 (2)Al5—O12—C28—C2310.0 (16)
O11—Al4—O9—C21166.0 (10)Na5—O12—C28—C23144.1 (8)
O23—Al4—O9—C2167.5 (10)C26—C27—C28—O12178.6 (11)
O10—Al4—O9—C21113.7 (10)C26—C27—C28—C231.4 (17)
N3—Al4—O9—C2127.8 (10)C24—C23—C28—O12176.6 (11)
Na1—Al4—O9—C21177.0 (11)C22—C23—C28—O123.0 (16)
Dy1—Al4—O9—C2173.5 (11)C24—C23—C28—C273.5 (16)
O11—Al4—O9—Na111.0 (4)C22—C23—C28—C27177.0 (10)
O23—Al4—O9—Na1109.5 (4)Al5—O14—C29—N56.1 (11)
O10—Al4—O9—Na169.3 (4)Al5—O14—C29—C30174.9 (7)
N3—Al4—O9—Na1155.2 (4)O13—N5—C29—O141.2 (12)
Dy1—Al4—O9—Na1109.5 (4)Al6—N5—C29—O14179.5 (7)
O9—Al4—O11—C22130.3 (7)O13—N5—C29—C30177.8 (8)
O23—Al4—O11—C22137.0 (6)Al6—N5—C29—C300.5 (13)
O22—Al4—O11—C2254.7 (6)O14—C29—C30—C35176.7 (9)
O10—Al4—O11—C2222.2 (6)N5—C29—C30—C354.4 (14)
N3—Al4—O11—C2257.9 (16)O14—C29—C30—C312.6 (14)
Na1—Al4—O11—C22120.7 (7)N5—C29—C30—C31176.3 (10)
Dy1—Al4—O11—C2212.4 (7)C35—C30—C31—C320.0 (18)
O9—Al4—O11—Na19.6 (3)C29—C30—C31—C32179.3 (11)
O23—Al4—O11—Na1102.2 (3)C30—C31—C32—C331 (2)
O22—Al4—O11—Na1175.4 (3)C31—C32—C33—C340 (2)
O10—Al4—O11—Na198.5 (3)C32—C33—C34—C351.2 (19)
N3—Al4—O11—Na162.8 (15)Al6—O15—C35—C34172.3 (8)
Dy1—Al4—O11—Na1133.15 (19)Al6—O15—C35—C309.9 (16)
O14—Al5—O12—C2887.4 (9)C33—C34—C35—O15179.8 (11)
O28—Al5—O12—C28179.7 (9)C33—C34—C35—C301.8 (16)
O19—Al5—O12—C2889.0 (9)C31—C30—C35—O15179.1 (10)
N4—Al5—O12—C283.9 (9)C29—C30—C35—O150.2 (15)
Na5—Al5—O12—C28157.9 (11)C31—C30—C35—C341.2 (15)
Dy1—Al5—O12—C2856.3 (10)C29—C30—C35—C34178.1 (9)
Na4—Al5—O12—C28130.0 (9)Al6—O17—C36—N61.6 (12)
O14—Al5—O12—Na5114.7 (3)Al6—O17—C36—C37173.8 (7)
O28—Al5—O12—Na521.9 (3)O16—N6—C36—O170.4 (13)
O19—Al5—O12—Na568.9 (3)Al3—N6—C36—O17176.8 (7)
N4—Al5—O12—Na5154.0 (3)O16—N6—C36—C37174.8 (9)
Dy1—Al5—O12—Na5101.5 (3)Al3—N6—C36—C378.1 (15)
Na4—Al5—O12—Na527.8 (3)O17—C36—C37—C42174.2 (10)
O14—Al5—O13—N58.6 (5)N6—C36—C37—C4210.6 (16)
O28—Al5—O13—N5101.8 (5)O17—C36—C37—C386.1 (15)
O19—Al5—O13—N5167.2 (5)N6—C36—C37—C38169.2 (10)
N4—Al5—O13—N582.5 (5)C42—C37—C38—C390.3 (19)
Na5—Al5—O13—N5125.0 (5)C36—C37—C38—C39180.0 (12)
Dy1—Al5—O13—N5132.3 (6)C37—C38—C39—C402 (2)
Na4—Al5—O13—N5151.3 (5)C38—C39—C40—C411 (2)
O14—Al5—O13—Dy1140.9 (3)C39—C40—C41—C420 (2)
O28—Al5—O13—Dy1125.9 (3)Al3—O18—C42—C41161.6 (8)
O19—Al5—O13—Dy135.0 (3)Na2—O18—C42—C4145.5 (12)
N4—Al5—O13—Dy149.8 (3)Al3—O18—C42—C3718.1 (16)
Na5—Al5—O13—Dy1102.8 (3)Na2—O18—C42—C37134.2 (9)
Na4—Al5—O13—Dy176.4 (2)C40—C41—C42—O18178.7 (11)
O12—Al5—O14—C29173.3 (6)C40—C41—C42—C371.6 (18)
O13—Al5—O14—C298.1 (6)C38—C37—C42—O18179.0 (10)
O28—Al5—O14—C2999.9 (7)C36—C37—C42—O181.2 (17)
O19—Al5—O14—C294.3 (14)C38—C37—C42—C411.3 (16)
N4—Al5—O14—C2983.1 (7)C36—C37—C42—C41178.5 (10)
Na5—Al5—O14—C29141.3 (6)Na5—O20—C43—N767.5 (12)
Dy1—Al5—O14—C2920.4 (7)Na4—O20—C43—N743.9 (11)
Na4—Al5—O14—C2964.8 (8)Na5—O20—C43—C44112.4 (9)
O27—Al6—O15—C3583.6 (10)Na4—O20—C43—C44136.2 (8)
O17—Al6—O15—C35174.8 (10)Na5—O20—C43—Na4111.4 (6)
O16—Al6—O15—C3593.3 (10)Na4—O20—C43—Na5111.4 (6)
N5—Al6—O15—C3510.6 (10)O19—N7—C43—O2013.2 (15)
O15—Al6—O16—N683.3 (7)O19—N7—C43—C44166.9 (8)
O27—Al6—O16—N699.7 (6)O19—N7—C43—Na419.9 (8)
O17—Al6—O16—N61.4 (6)O19—N7—C43—Na551.0 (9)
N5—Al6—O16—N6168.4 (6)O20—C43—C44—C4525.9 (15)
O15—Al6—O16—Dy1112.4 (5)N7—C43—C44—C45154.0 (10)
O27—Al6—O16—Dy164.5 (5)Na4—C43—C44—C4591.3 (13)
O17—Al6—O16—Dy1162.9 (5)Na5—C43—C44—C4523.1 (13)
N5—Al6—O16—Dy127.3 (5)O20—C43—C44—C49148.6 (10)
O15—Al6—O17—C36131.5 (7)N7—C43—C44—C4931.5 (15)
O27—Al6—O17—C36112.6 (7)Na4—C43—C44—C4983.2 (14)
O16—Al6—O17—C361.6 (7)Na5—C43—C44—C49162.3 (8)
N5—Al6—O17—C3638.8 (18)C49—C44—C45—C461.3 (17)
O7—Al3—O18—C4241 (2)C43—C44—C45—C46176.0 (10)
O6—Al3—O18—C42172.0 (10)C44—C45—C46—C472.5 (18)
O8—Al3—O18—C4283.4 (9)C45—C46—C47—C481.7 (18)
N2—Al3—O18—C42105.1 (10)C46—C47—C48—C490.3 (18)
N6—Al3—O18—C4216.4 (10)Al1—O21—C49—C4497.7 (15)
Na2—Al3—O18—C42126.2 (10)Al1—O21—C49—C4884.5 (15)
O7—Al3—O18—Na285.5 (16)C45—C44—C49—O21177.2 (10)
O6—Al3—O18—Na245.9 (3)C43—C44—C49—O218.4 (16)
O8—Al3—O18—Na242.8 (3)C45—C44—C49—C480.6 (16)
N2—Al3—O18—Na2128.8 (3)C43—C44—C49—C48173.8 (9)
N6—Al3—O18—Na2142.6 (3)C47—C48—C49—O21176.5 (10)
O24—Al1—O21—C4997.9 (13)C47—C48—C49—C441.4 (16)
O2—Al1—O21—C490.4 (13)O22—N8—C50—O232.5 (13)
O1—Al1—O21—C4987.5 (13)Al1—N8—C50—O23168.7 (7)
N8—Al1—O21—C49171.5 (13)O22—N8—C50—C51176.9 (8)
O9—Al4—O23—C50163.7 (7)Al1—N8—C50—C5110.7 (15)
O11—Al4—O23—C50107.8 (7)Al4—O23—C50—N89.6 (12)
O22—Al4—O23—C5013.1 (7)Al4—O23—C50—C51171.1 (7)
O10—Al4—O23—C5019.8 (14)N8—C50—C51—C52178.4 (10)
N3—Al4—O23—C5075.9 (7)O23—C50—C51—C521.0 (15)
Na1—Al4—O23—C50156.8 (6)N8—C50—C51—C560.9 (15)
Dy1—Al4—O23—C5011.6 (8)O23—C50—C51—C56179.7 (9)
O21—Al1—O24—C5670.4 (10)C56—C51—C52—C530.2 (16)
O2—Al1—O24—C56174.9 (9)C50—C51—C52—C53179.6 (11)
O1—Al1—O24—C56102.5 (9)C51—C52—C53—C540.9 (18)
N8—Al1—O24—C5620.8 (9)C52—C53—C54—C551.7 (19)
O15—Al6—O27—C63104.3 (9)C53—C54—C55—C561.8 (19)
O17—Al6—O27—C638.7 (9)Al1—O24—C56—C55164.1 (8)
O16—Al6—O27—C6378.1 (9)Al1—O24—C56—C5117.1 (15)
N5—Al6—O27—C63163.7 (8)C54—C55—C56—O24179.9 (10)
O41—C99—N21—C1002 (9)C54—C55—C56—C511.0 (16)
O41—C99—N21—C101163 (5)C52—C51—C56—O24179.0 (10)
O41B—C99B—N21B—C1022 (9)C50—C51—C56—O241.6 (16)
O41B—C99B—N21B—C103160 (6)C52—C51—C56—C550.2 (15)
Al1—O1—N1—C15.3 (9)C50—C51—C56—C55179.6 (9)
Dy1—O1—N1—C1169.4 (6)Al2—O26—C57—N918.9 (11)
Al1—O1—N1—Al2165.0 (4)Na3—O26—C57—N9158.0 (15)
Dy1—O1—N1—Al220.3 (7)Al2—O26—C57—C58162.5 (7)
Al2—O4—N2—C83.5 (9)Na3—O26—C57—C5821 (3)
Dy1—O4—N2—C8137.8 (7)O25—N9—C57—O263.3 (13)
Al2—O4—N2—Al3173.8 (4)O25—N9—C57—C58178.2 (8)
Dy1—O4—N2—Al339.4 (7)O26—C57—C58—C5924.0 (14)
Al3—O7—N3—C155.7 (9)N9—C57—C58—C59154.5 (10)
Dy1—O7—N3—C15149.8 (7)O26—C57—C58—C63154.4 (10)
Al3—O7—N3—Al4173.2 (4)N9—C57—C58—C6327.0 (14)
Dy1—O7—N3—Al429.1 (7)C63—C58—C59—C602.7 (16)
Al4—O10—N4—C2217.9 (9)C57—C58—C59—C60178.8 (9)
Dy1—O10—N4—C22124.9 (7)C58—C59—C60—C612.6 (16)
Al4—O10—N4—Al5147.0 (4)C59—C60—C61—C620.8 (16)
Dy1—O10—N4—Al540.0 (6)C60—C61—C62—C630.9 (16)
Al5—O13—N5—C297.7 (8)Al6—O27—C63—C58100.0 (11)
Dy1—O13—N5—C29130.5 (6)Al6—O27—C63—C6284.2 (12)
Al5—O13—N5—Al6173.7 (4)C59—C58—C63—O27176.9 (9)
Dy1—O13—N5—Al650.9 (7)C57—C58—C63—O274.7 (15)
Al6—O16—N6—C360.9 (9)C59—C58—C63—C621.0 (15)
Dy1—O16—N6—C36165.2 (6)C57—C58—C63—C62179.3 (9)
Al6—O16—N6—Al3178.4 (4)C61—C62—C63—O27175.1 (9)
Dy1—O16—N6—Al312.3 (8)C61—C62—C63—C580.9 (15)
Al5—O19—N7—C4396.6 (9)Na4—O29—C64—O283.9 (13)
Na4—O19—N7—C4325.3 (10)Na4—O29—C64—C65178.8 (10)
Dy1—O19—N7—C43142.2 (7)Al5—O28—C64—O2992.6 (13)
Al4—O22—N8—C5013.3 (9)Na5—O28—C64—O2978.4 (13)
Dy1—O22—N8—C50136.4 (7)Na4—O28—C64—O293.1 (10)
Al4—O22—N8—Al1178.1 (4)Al5—O28—C64—C6590.1 (13)
Dy1—O22—N8—Al155.0 (7)Na5—O28—C64—C6598.9 (12)
Al2—O25—N9—C5713.4 (9)Na4—O28—C64—C65179.6 (11)
Na4—O25—N9—C57137.1 (7)Al5—O28—C64—Na489.5 (8)
Dy1—O25—N9—C57113.6 (7)Na5—O28—C64—Na481.5 (7)
Al1—O2—C1—N14.8 (11)Na1—O30—C66—N1031 (3)
Al1—O2—C1—C2175.7 (7)Na3i—O30—C66—N10159.0 (11)
O1—N1—C1—O20.4 (12)C67—N10—C66—O301 (2)
Al2—N1—C1—O2168.5 (6)C68—N10—C66—O30175.8 (15)
O1—N1—C1—C2179.1 (8)Na1—O31—C69—N11116.7 (12)
Al2—N1—C1—C211.9 (14)C71—N11—C69—O31176.3 (12)
O2—C1—C2—C7176.6 (9)C70—N11—C69—O312 (2)
N1—C1—C2—C72.9 (15)C71—N11—C69—Na1120.9 (12)
O2—C1—C2—C33.8 (15)C70—N11—C69—Na153.8 (17)
N1—C1—C2—C3176.6 (10)Na2—O32—C72—N1227 (3)
C7—C2—C3—C40.7 (17)Na5ii—O32—C72—N12172.7 (10)
C1—C2—C3—C4179.7 (11)C73—N12—C72—O325 (2)
C2—C3—C4—C50.0 (19)C74—N12—C72—O32177.5 (16)
C3—C4—C5—C60 (2)Na2—O33—C75—N1335 (4)
C4—C5—C6—C71.3 (19)Na5ii—O33—C75—N13169.0 (11)
Al2—O3—C7—C6162.2 (8)Na2—O33—C75—Na5ii134 (3)
Na3—O3—C7—C652.6 (12)C76—N13—C75—O332 (2)
Al2—O3—C7—C219.0 (15)C77—N13—C75—O33170.5 (16)
Na3—O3—C7—C2128.6 (9)C76—N13—C75—Na5ii33 (5)
C5—C6—C7—O3179.1 (11)C77—N13—C75—Na5ii140 (3)
C5—C6—C7—C22.1 (17)Na2—O34—C78—N1469 (2)
C3—C2—C7—O3179.5 (10)Na5ii—O34—C78—N14169.4 (9)
C1—C2—C7—O30.1 (16)C80—N14—C78—O34177.4 (12)
C3—C2—C7—C61.7 (16)C79—N14—C78—O345.9 (19)
C1—C2—C7—C6178.7 (10)Na3—O35—C81—N1554.3 (18)
O4—N2—C8—O55.5 (12)Na1iii—O35—C81—N15173.2 (8)
Al3—N2—C8—O5177.9 (7)C83—N15—C81—O35172.0 (12)
O4—N2—C8—C9170.6 (8)C82—N15—C81—O351.1 (18)
Al3—N2—C8—C96.0 (15)Na3—O36—C84—N1649 (4)
Al2—O5—C8—N211.5 (11)Na1iii—O36—C84—N16178.7 (14)
Na3—O5—C8—N291.4 (12)C85—N16—C84—O367 (3)
Al2—O5—C8—C9164.6 (7)C86—N16—C84—O36178.6 (19)
Na3—O5—C8—C992.5 (11)Na4—O37—C87—N17176.0 (10)
N2—C8—C9—C10169.6 (10)C88—N17—C87—O372 (2)
O5—C8—C9—C1014.2 (15)C89—N17—C87—O37178.6 (12)
N2—C8—C9—C1416.4 (14)O38—C90—N18—C9113 (4)
O5—C8—C9—C14159.8 (9)O38—C90—N18—C92173 (2)
C14—C9—C10—C111.0 (18)C94—N19—C93—O392 (4)
C8—C9—C10—C11175.0 (11)C95—N19—C93—O39176 (2)
C9—C10—C11—C124 (2)C98—N20—C96—O40174 (2)
C10—C11—C12—C134 (2)C97—N20—C96—O4021 (4)
C11—C12—C13—C140.2 (19)
Symmetry codes: (i) x+1/2, y+1/2, z; (ii) x1/2, y+1/2, z; (iii) x1/2, y1/2, z; (iv) x+1/2, y1/2, z.
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
O42—H42A···O30.842.082.868 (14)156
O42—H42B···O370.842.082.820 (15)146
N7—H7···O220.90 (3)2.25 (6)2.899 (11)129 (5)
N9—H9···O270.91 (3)1.92 (3)2.693 (11)142 (6)
C20—H20···O35i0.952.653.483 (16)147
C41—H41···O340.952.603.469 (14)153
C66—H66···O42i0.952.363.30 (2)171
C67—H67A···O310.982.473.41 (2)159
C69—H69···O100.952.503.260 (14)137
C71—H71C···O160.982.563.363 (16)139
C73—H73A···O60.982.333.268 (14)159
C74—H74C···O38v0.982.343.32 (3)177
C78—H78···O20ii0.952.563.260 (14)131
C78—H78···O37ii0.952.653.524 (16)154
C79—H79B···O410.982.453.25 (4)139
C79—H79C···O180.982.483.446 (17)168
C80—H80A···O37ii0.982.523.470 (18)163
C80—H80B···O410.982.493.31 (4)140
C83—H83B···O400.982.353.309 (19)166
C84—H84···O11iii0.952.583.292 (18)132
C84—H84···O23iii0.952.543.414 (18)153
C92—H92B···O21iii0.982.403.35 (2)164
C94—H94A···O410.982.473.32 (4)145
C95—H95A···O410.982.363.23 (4)147
C97—H97B···O31iii0.982.573.35 (3)137
C98—H98B···O24vi0.982.653.318 (19)125
Symmetry codes: (i) x+1/2, y+1/2, z; (ii) x1/2, y+1/2, z; (iii) x1/2, y1/2, z; (v) x, y+1, z; (vi) x, y+1, z+1/2.
Poly[[di-µ4-acetato-nonakis(µ-N,N-dimethylformamide)octakis(N,N-dimethylformamide)tetrakis[salicylhydroximato(2-)]tetradecakis[salicylhydroximato(3-)]dodecaaluminium(III)didysprosium(III)decasodium(I)] N,N-dimethylformamide 6.335-solvate] (2) top
Crystal data top
[Dy2Al12Na10(C7H5NO3)4(C7H4NO3)14(C2H3O2)2(C3H7NO)17]·6.335C3H7NOF(000) = 5567
Mr = 5408.50Dx = 1.407 Mg m3
Monoclinic, PcCu Kα radiation, λ = 1.54178 Å
a = 28.1847 (14) ÅCell parameters from 9892 reflections
b = 15.3683 (8) Åθ = 2.9–66.7°
c = 30.7354 (16) ŵ = 4.44 mm1
β = 106.461 (2)°T = 100 K
V = 12767.4 (11) Å3Block, colorless
Z = 20.25 × 0.23 × 0.19 mm
Data collection top
Bruker X8 Prospector CCD
diffractometer
38274 independent reflections
Radiation source: I-mu-S microsource X-ray tube36111 reflections with I > 2σ(I)
Laterally graded multilayer (Goebel) mirror monochromatorRint = 0.050
ω and phi scansθmax = 66.9°, θmin = 2.9°
Absorption correction: multi-scan
(SADABS; Bruker, 2014)
h = 3331
Tmin = 0.488, Tmax = 0.753k = 1818
154195 measured reflectionsl = 3536
Refinement top
Refinement on F2Secondary atom site location: difference Fourier map
Least-squares matrix: fullHydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.053H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.137 w = 1/[σ2(Fo2) + (0.082P)2 + 21.873P]
where P = (Fo2 + 2Fc2)/3
S = 1.02(Δ/σ)max = 0.002
38274 reflectionsΔρmax = 2.28 e Å3
3599 parametersΔρmin = 1.57 e Å3
4954 restraintsAbsolute structure: Refined as an inversion twin
Primary atom site location: structure-invariant direct methodsAbsolute structure parameter: 0.097 (3)
Special details top

Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes.

Refinement. Refined as a 2-component inversion twin.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Dy10.81505 (5)0.03132 (2)0.32176 (5)0.00908 (10)
Dy20.37482 (5)0.07517 (2)0.29104 (5)0.00947 (10)
Al10.87169 (9)0.22632 (13)0.34445 (9)0.0129 (4)
Al20.70802 (9)0.14467 (13)0.29915 (8)0.0102 (4)
Al30.76745 (10)0.01246 (17)0.19191 (9)0.0184 (5)
Al40.87180 (10)0.02323 (14)0.45422 (9)0.0157 (5)
Al50.81896 (10)0.18923 (14)0.34637 (9)0.0146 (4)
Al60.92808 (9)0.02834 (14)0.29235 (9)0.0142 (4)
Al70.36936 (10)0.14332 (13)0.26170 (9)0.0152 (4)
Al80.32082 (10)0.07658 (13)0.15664 (9)0.0140 (5)
Al90.26280 (9)0.01313 (14)0.32172 (9)0.0126 (4)
Al100.42417 (10)0.04756 (16)0.42172 (9)0.0171 (4)
Al110.48273 (9)0.19014 (13)0.31645 (9)0.0119 (4)
Al120.31882 (9)0.27069 (13)0.27197 (9)0.0121 (4)
Na11.03076 (13)0.0102 (2)0.27827 (13)0.0284 (7)
Na20.84298 (13)0.42856 (18)0.30616 (13)0.0215 (7)
Na30.84048 (14)0.37615 (19)0.33220 (13)0.0266 (7)
Na40.68710 (12)0.06147 (19)0.33551 (11)0.0189 (6)
Na50.61385 (12)0.12999 (19)0.34704 (12)0.0192 (6)
Na60.58031 (12)0.1777 (2)0.26870 (12)0.0201 (6)
Na70.49029 (13)0.0001 (2)0.25056 (12)0.0252 (7)
Na80.35025 (14)0.33251 (19)0.27872 (12)0.0238 (7)
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C1800.1355 (8)0.1346 (11)0.2071 (6)0.101 (6)
H18A0.1157440.1484090.1761600.151*
H18B0.1706560.1346510.2086440.151*
H18C0.1261050.0769770.2156260.151*
C1810.1443 (6)0.2846 (10)0.2321 (6)0.084 (5)
H18D0.1244160.3080970.2030360.126*
H18E0.1420440.3235340.2567210.126*
H18F0.1788600.2796830.2319060.126*
O761.0387 (13)0.294 (2)0.5350 (12)0.201 (12)0.700 (13)
C1821.0500 (11)0.235 (2)0.5117 (12)0.135 (8)0.700 (13)
H1821.0805520.2361750.5043230.162*0.700 (13)
N361.0180 (8)0.1733 (14)0.4981 (8)0.106 (6)0.700 (13)
C1830.9655 (9)0.184 (2)0.4902 (12)0.130 (10)0.700 (13)
H18G0.9511480.2089980.4599460.195*0.700 (13)
H18H0.9502900.1277100.4922570.195*0.700 (13)
H18I0.9594350.2237140.5131270.195*0.700 (13)
C1841.0241 (9)0.0940 (15)0.4748 (8)0.091 (7)0.700 (13)
H18J1.0593800.0802750.4815320.136*0.700 (13)
H18K1.0069840.0461760.4851560.136*0.700 (13)
H18L1.0100360.1018760.4420380.136*0.700 (13)
O76B1.2105 (13)0.511 (3)0.4752 (16)0.20 (2)0.300 (13)
C2151.1997 (9)0.453 (3)0.4989 (15)0.174 (19)0.300 (13)
H2151.2274300.4271080.5199280.209*0.300 (13)
N36B1.1583 (9)0.4220 (18)0.5001 (10)0.166 (18)0.300 (13)
C2161.1127 (9)0.456 (3)0.4658 (16)0.113 (18)0.300 (13)
H21P1.0833370.4272470.4702330.169*0.300 (13)
H21Q1.1148680.4440600.4351660.169*0.300 (13)
H21R1.1101030.5189650.4698550.169*0.300 (13)
C2171.1475 (16)0.346 (2)0.5215 (17)0.16 (2)0.300 (13)
H21M1.1115600.3412450.5157380.237*0.300 (13)
H21N1.1632030.3503100.5542150.237*0.300 (13)
H21O1.1600670.2952950.5092780.237*0.300 (13)
O770.6391 (6)0.5142 (11)0.0515 (6)0.140 (6)
C1850.6734 (5)0.4904 (10)0.0825 (6)0.077 (4)
H1850.6668990.4899210.1112140.092*
N370.7187 (4)0.4647 (7)0.0833 (4)0.063 (3)
C1860.7283 (9)0.4622 (17)0.0394 (6)0.126 (7)
H18M0.7622900.4426620.0431630.189*
H18N0.7051800.4216370.0194850.189*
H18O0.7237880.5204400.0259360.189*
C1870.7526 (7)0.4342 (10)0.1240 (6)0.101 (6)
H18P0.7819810.4715770.1318120.152*
H18Q0.7623890.3743590.1195680.152*
H18R0.7368960.4355190.1486260.152*
O780.5851 (5)0.1301 (7)0.5505 (3)0.063 (3)0.806 (9)
C1880.5856 (5)0.0659 (7)0.5267 (3)0.034 (3)0.806 (9)
H1880.5780700.0750510.4948840.041*0.806 (9)
N380.5956 (3)0.0141 (5)0.5414 (3)0.0262 (19)0.806 (9)
C1890.6073 (5)0.0342 (9)0.5894 (3)0.040 (3)0.806 (9)
H18S0.5802490.0146100.6011440.060*0.806 (9)
H18T0.6379530.0044300.6056510.060*0.806 (9)
H18U0.6116760.0971900.5937450.060*0.806 (9)
C1900.5978 (5)0.0841 (7)0.5108 (3)0.032 (3)0.806 (9)
H19A0.5769360.1323210.5153040.048*0.806 (9)
H19B0.6320650.1042170.5168570.048*0.806 (9)
H19C0.5859180.0633250.4794480.048*0.806 (9)
O790.5525 (8)0.4533 (12)0.6275 (6)0.157 (7)
C1910.5341 (7)0.4795 (14)0.5877 (7)0.112 (5)
H1910.5552180.5102240.5738100.134*
N390.4879 (6)0.4679 (9)0.5637 (5)0.090 (4)
C1920.4545 (8)0.4245 (14)0.5853 (7)0.119 (7)
H19D0.4215140.4202380.5637130.178*
H19E0.4525510.4582080.6118480.178*
H19F0.4669900.3660450.5949560.178*
C1930.4667 (9)0.4880 (14)0.5159 (6)0.124 (7)
H19G0.4314700.4727910.5066870.186*
H19H0.4838270.4543820.4977910.186*
H19I0.4704540.5502610.5108810.186*
O800.3291 (9)0.5272 (12)0.0253 (5)0.109 (7)0.682 (16)
C1940.3385 (9)0.5561 (13)0.0638 (7)0.091 (6)0.682 (16)
H1940.3709660.5462510.0830520.110*0.682 (16)
N400.3079 (8)0.5999 (12)0.0811 (6)0.086 (5)0.682 (16)
C1950.3244 (10)0.6260 (17)0.1294 (6)0.092 (7)0.682 (16)
H19J0.2977050.6577270.1371050.138*0.682 (16)
H19K0.3327910.5739720.1484960.138*0.682 (16)
H19L0.3535660.6635320.1346100.138*0.682 (16)
C1960.2647 (9)0.6413 (17)0.0500 (7)0.090 (7)0.682 (16)
H19M0.2454420.6712620.0674650.134*0.682 (16)
H19N0.2756590.6835440.0309640.134*0.682 (16)
H19O0.2440880.5968900.0306890.134*0.682 (16)
O810.1374 (13)0.208 (2)0.1117 (9)0.225 (13)0.847 (14)
C1970.1756 (13)0.1624 (18)0.1278 (11)0.182 (11)0.847 (14)
H1970.2072610.1888960.1339150.219*0.847 (14)
N410.1726 (11)0.0799 (16)0.1362 (7)0.155 (9)0.847 (14)
C1980.1300 (11)0.031 (2)0.1103 (12)0.179 (13)0.847 (14)
H19P0.1331620.0298750.1205510.268*0.847 (14)
H19Q0.0998310.0559660.1149830.268*0.847 (14)
H19R0.1281200.0331680.0780370.268*0.847 (14)
C1990.2104 (12)0.031 (2)0.1682 (9)0.181 (13)0.847 (14)
H19S0.1996950.0298380.1684980.271*0.847 (14)
H19T0.2411710.0328140.1592950.271*0.847 (14)
H19U0.2161410.0558940.1985440.271*0.847 (14)
O820.8428 (8)0.4472 (11)0.5717 (6)0.088 (5)0.661 (12)
C2000.8588 (9)0.3926 (15)0.5494 (9)0.084 (5)0.661 (12)
H2000.8934670.3955470.5535820.101*0.661 (12)
N420.8367 (8)0.3334 (15)0.5219 (9)0.079 (4)0.661 (12)
C2010.8606 (11)0.283 (2)0.4926 (10)0.079 (6)0.661 (12)
H20D0.8368260.2412440.4744320.119*0.661 (12)
H20E0.8714910.3227630.4724750.119*0.661 (12)
H20F0.8892660.2514810.5116820.119*0.661 (12)
C2020.7884 (9)0.3038 (19)0.5191 (11)0.095 (7)0.661 (12)
H20A0.7788640.2584080.4958680.143*0.661 (12)
H20B0.7876800.2800270.5484990.143*0.661 (12)
H20C0.7650990.3525410.5109760.143*0.661 (12)
O82B0.8647 (14)0.428 (2)0.5651 (14)0.092 (7)0.339 (12)
C2210.8293 (14)0.378 (3)0.5480 (14)0.076 (5)0.339 (12)
H2210.8019480.3852690.5598980.092*0.339 (12)
N42B0.8228 (13)0.318 (3)0.5179 (17)0.080 (5)0.339 (12)
C2220.7731 (14)0.276 (3)0.5004 (17)0.082 (8)0.339 (12)
H22D0.7744270.2320710.4775550.123*0.339 (12)
H22E0.7640700.2476550.5255330.123*0.339 (12)
H22F0.7482080.3198860.4865970.123*0.339 (12)
C2230.8590 (16)0.276 (3)0.5020 (15)0.074 (9)0.339 (12)
H22G0.8430170.2334640.4787890.111*0.339 (12)
H22H0.8766540.3191120.4889490.111*0.339 (12)
H22I0.8824340.2463430.5273470.111*0.339 (12)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Dy10.01136 (19)0.00735 (19)0.00883 (18)0.00085 (16)0.00334 (14)0.00051 (15)
Dy20.00990 (19)0.00604 (19)0.01269 (19)0.00072 (16)0.00355 (14)0.00120 (15)
Al10.0111 (10)0.0079 (10)0.0207 (11)0.0012 (8)0.0061 (8)0.0009 (8)
Al20.0110 (10)0.0078 (9)0.0117 (9)0.0005 (8)0.0033 (8)0.0007 (7)
Al30.0193 (12)0.0289 (12)0.0068 (10)0.0038 (10)0.0037 (8)0.0013 (9)
Al40.0193 (12)0.0141 (10)0.0110 (10)0.0047 (8)0.0003 (9)0.0003 (8)
Al50.0195 (11)0.0083 (10)0.0157 (10)0.0002 (8)0.0046 (8)0.0014 (8)
Al60.0142 (11)0.0163 (11)0.0138 (10)0.0044 (8)0.0065 (8)0.0032 (8)
Al70.0192 (11)0.0060 (9)0.0201 (11)0.0003 (8)0.0052 (9)0.0016 (8)
Al80.0157 (11)0.0136 (11)0.0114 (10)0.0024 (8)0.0016 (8)0.0026 (7)
Al90.0133 (10)0.0086 (9)0.0163 (10)0.0038 (8)0.0047 (8)0.0022 (7)
Al100.0159 (11)0.0205 (11)0.0133 (10)0.0055 (9)0.0017 (9)0.0001 (9)
Al110.0095 (10)0.0094 (9)0.0165 (10)0.0011 (8)0.0033 (8)0.0007 (8)
Al120.0110 (10)0.0077 (9)0.0179 (10)0.0007 (8)0.0048 (8)0.0027 (8)
Na10.0155 (16)0.0318 (18)0.0405 (19)0.0064 (14)0.0123 (14)0.0064 (15)
Na20.0230 (17)0.0087 (14)0.0348 (18)0.0024 (11)0.0115 (14)0.0041 (11)
Na30.0370 (19)0.0073 (14)0.0350 (18)0.0014 (13)0.0095 (15)0.0033 (12)
Na40.0187 (15)0.0178 (14)0.0211 (15)0.0043 (12)0.0070 (12)0.0050 (11)
Na50.0198 (15)0.0150 (14)0.0253 (15)0.0052 (12)0.0104 (12)0.0048 (12)
Na60.0183 (15)0.0188 (15)0.0227 (15)0.0007 (12)0.0051 (12)0.0038 (12)
Na70.0285 (17)0.0247 (16)0.0228 (16)0.0070 (14)0.0081 (13)0.0000 (12)
Na80.0314 (17)0.0079 (13)0.0313 (17)0.0023 (13)0.0076 (13)0.0019 (12)
Na90.0235 (16)0.0077 (13)0.0235 (15)0.0017 (11)0.0082 (12)0.0012 (11)
Na100.0163 (16)0.041 (2)0.0325 (18)0.0061 (14)0.0112 (14)0.0082 (15)
O10.016 (3)0.005 (2)0.019 (3)0.001 (2)0.008 (2)0.0042 (19)
O20.020 (3)0.018 (3)0.021 (3)0.004 (2)0.016 (2)0.007 (2)
O30.019 (3)0.010 (2)0.037 (3)0.004 (2)0.014 (2)0.004 (2)
O40.015 (3)0.014 (2)0.015 (2)0.003 (2)0.009 (2)0.0018 (19)
O50.016 (3)0.007 (2)0.027 (3)0.004 (2)0.010 (2)0.000 (2)
O60.011 (2)0.012 (2)0.022 (3)0.002 (2)0.006 (2)0.002 (2)
O70.008 (2)0.007 (2)0.014 (2)0.0009 (18)0.0005 (19)0.0021 (18)
O80.015 (3)0.009 (2)0.030 (3)0.002 (2)0.006 (2)0.003 (2)
O90.016 (3)0.028 (3)0.017 (3)0.005 (2)0.001 (2)0.004 (2)
O100.012 (2)0.017 (3)0.006 (2)0.004 (2)0.0005 (18)0.0049 (19)
O110.018 (3)0.017 (3)0.015 (2)0.005 (2)0.004 (2)0.002 (2)
O120.031 (3)0.039 (3)0.010 (3)0.009 (3)0.005 (2)0.004 (2)
O130.014 (2)0.014 (2)0.005 (2)0.0031 (19)0.0001 (18)0.0012 (17)
O140.015 (3)0.022 (3)0.011 (2)0.007 (2)0.001 (2)0.0006 (19)
O150.017 (3)0.027 (3)0.011 (2)0.009 (2)0.003 (2)0.000 (2)
O160.017 (3)0.014 (2)0.010 (2)0.002 (2)0.0034 (19)0.0008 (19)
O170.025 (3)0.011 (2)0.016 (3)0.002 (2)0.003 (2)0.0041 (19)
O180.023 (3)0.026 (3)0.015 (3)0.007 (2)0.002 (2)0.003 (2)
O190.018 (3)0.019 (3)0.010 (2)0.009 (2)0.006 (2)0.0001 (19)
O200.023 (3)0.046 (4)0.014 (3)0.008 (3)0.004 (2)0.004 (2)
O210.023 (3)0.028 (3)0.017 (3)0.006 (2)0.007 (2)0.001 (2)
O220.017 (3)0.004 (2)0.012 (2)0.0020 (19)0.003 (2)0.0005 (17)
O230.034 (3)0.019 (3)0.014 (3)0.009 (2)0.000 (2)0.002 (2)
O240.023 (3)0.009 (2)0.020 (3)0.001 (2)0.004 (2)0.0018 (19)
O250.010 (2)0.009 (2)0.017 (2)0.0038 (19)0.0043 (19)0.0009 (19)
O260.023 (3)0.009 (2)0.025 (3)0.002 (2)0.008 (2)0.006 (2)
O270.020 (3)0.021 (3)0.020 (3)0.005 (2)0.007 (2)0.007 (2)
O280.020 (3)0.004 (2)0.018 (3)0.002 (2)0.005 (2)0.0033 (18)
O290.029 (3)0.019 (3)0.011 (3)0.001 (2)0.001 (2)0.007 (2)
O300.031 (3)0.010 (2)0.028 (3)0.002 (2)0.012 (2)0.001 (2)
O310.018 (3)0.014 (3)0.020 (3)0.001 (2)0.005 (2)0.000 (2)
O320.022 (3)0.008 (2)0.027 (3)0.003 (2)0.001 (2)0.002 (2)
O330.021 (3)0.022 (3)0.020 (3)0.004 (2)0.001 (2)0.002 (2)
O340.019 (3)0.010 (2)0.013 (2)0.002 (2)0.006 (2)0.0024 (18)
O350.022 (3)0.007 (2)0.023 (3)0.002 (2)0.007 (2)0.002 (2)
O360.017 (3)0.014 (3)0.022 (3)0.006 (2)0.008 (2)0.003 (2)
O370.015 (2)0.008 (2)0.007 (2)0.0039 (19)0.0026 (18)0.0003 (17)
O380.014 (3)0.012 (2)0.021 (3)0.002 (2)0.004 (2)0.003 (2)
O390.026 (3)0.032 (3)0.018 (3)0.007 (3)0.001 (2)0.007 (2)
O400.017 (3)0.010 (2)0.010 (2)0.000 (2)0.0080 (19)0.0013 (18)
O410.018 (3)0.029 (3)0.021 (3)0.001 (2)0.007 (2)0.002 (2)
O420.026 (3)0.021 (3)0.026 (3)0.005 (2)0.008 (2)0.002 (2)
O430.014 (3)0.011 (2)0.015 (2)0.002 (2)0.006 (2)0.0033 (19)
O440.018 (3)0.016 (3)0.026 (3)0.009 (2)0.013 (2)0.005 (2)
O450.013 (2)0.010 (2)0.031 (3)0.000 (2)0.009 (2)0.005 (2)
O460.006 (2)0.012 (2)0.010 (2)0.0043 (19)0.0020 (18)0.0004 (18)
O470.015 (3)0.010 (2)0.019 (3)0.001 (2)0.003 (2)0.0020 (19)
O480.032 (3)0.034 (3)0.016 (3)0.018 (3)0.006 (2)0.006 (2)
O490.012 (3)0.015 (2)0.018 (3)0.006 (2)0.001 (2)0.004 (2)
O500.021 (3)0.034 (3)0.012 (3)0.009 (3)0.000 (2)0.001 (2)
O510.021 (3)0.017 (3)0.019 (3)0.006 (2)0.009 (2)0.001 (2)
O520.011 (2)0.007 (2)0.016 (2)0.0021 (19)0.0055 (19)0.0040 (18)
O530.014 (3)0.005 (2)0.025 (3)0.0013 (19)0.006 (2)0.0016 (19)
O540.013 (3)0.015 (3)0.024 (3)0.002 (2)0.006 (2)0.002 (2)
O550.035 (3)0.013 (3)0.028 (3)0.003 (2)0.004 (3)0.004 (2)
O560.013 (3)0.020 (3)0.014 (3)0.005 (2)0.003 (2)0.007 (2)
O570.027 (3)0.012 (3)0.028 (3)0.004 (2)0.007 (2)0.004 (2)
O580.010 (2)0.017 (3)0.027 (3)0.003 (2)0.009 (2)0.007 (2)
N10.010 (3)0.010 (3)0.021 (3)0.001 (2)0.006 (2)0.006 (2)
N20.010 (3)0.007 (3)0.016 (3)0.004 (2)0.008 (2)0.001 (2)
N30.011 (3)0.011 (3)0.009 (3)0.001 (2)0.003 (2)0.004 (2)
N40.016 (3)0.024 (3)0.004 (3)0.002 (3)0.000 (2)0.003 (2)
N50.018 (3)0.014 (3)0.008 (3)0.003 (2)0.010 (2)0.000 (2)
N60.018 (3)0.016 (3)0.014 (3)0.001 (3)0.000 (2)0.001 (2)
N70.020 (3)0.020 (3)0.011 (3)0.007 (3)0.010 (2)0.001 (2)
N80.021 (3)0.006 (3)0.012 (3)0.001 (2)0.003 (2)0.006 (2)
N90.011 (3)0.016 (3)0.022 (3)0.007 (2)0.003 (2)0.001 (2)
N100.020 (3)0.011 (3)0.016 (3)0.003 (3)0.007 (3)0.003 (2)
N110.015 (3)0.013 (3)0.020 (3)0.002 (2)0.001 (3)0.003 (2)
N120.0133 (10)0.0086 (9)0.0163 (10)0.0038 (8)0.0047 (8)0.0022 (7)
N130.014 (3)0.014 (3)0.011 (3)0.001 (2)0.001 (2)0.000 (2)
N140.012 (3)0.025 (3)0.015 (3)0.002 (3)0.005 (2)0.005 (2)
N150.015 (3)0.007 (3)0.016 (3)0.001 (2)0.004 (2)0.004 (2)
N160.016 (3)0.018 (3)0.008 (3)0.002 (3)0.001 (2)0.001 (2)
N170.017 (3)0.017 (3)0.011 (3)0.005 (3)0.009 (2)0.002 (2)
N180.011 (3)0.009 (3)0.015 (3)0.004 (2)0.005 (2)0.001 (2)
C10.014 (4)0.016 (4)0.025 (4)0.007 (3)0.008 (3)0.007 (3)
C20.018 (4)0.025 (5)0.038 (5)0.009 (3)0.017 (4)0.014 (4)
C30.014 (4)0.018 (4)0.040 (5)0.004 (3)0.012 (3)0.016 (3)
C40.030 (5)0.016 (4)0.084 (8)0.007 (4)0.032 (5)0.019 (5)
C50.041 (6)0.029 (6)0.108 (10)0.012 (5)0.043 (7)0.038 (6)
C60.043 (6)0.037 (5)0.086 (8)0.012 (4)0.050 (6)0.022 (5)
C70.027 (5)0.029 (5)0.060 (6)0.005 (4)0.032 (5)0.016 (4)
C80.012 (4)0.008 (3)0.022 (4)0.001 (3)0.008 (3)0.003 (3)
C90.019 (4)0.004 (3)0.019 (4)0.001 (3)0.008 (3)0.001 (3)
C100.017 (4)0.008 (3)0.018 (3)0.005 (3)0.009 (3)0.001 (3)
C110.023 (4)0.004 (3)0.029 (4)0.001 (3)0.011 (3)0.005 (3)
C120.024 (4)0.016 (4)0.042 (5)0.000 (3)0.021 (4)0.008 (3)
C130.029 (5)0.017 (4)0.046 (5)0.002 (3)0.020 (4)0.014 (4)
C140.022 (4)0.009 (3)0.035 (4)0.008 (3)0.014 (3)0.008 (3)
C150.010 (3)0.017 (4)0.024 (4)0.001 (3)0.008 (3)0.003 (3)
C160.008 (3)0.022 (4)0.021 (4)0.000 (3)0.003 (3)0.006 (3)
C170.013 (4)0.033 (4)0.016 (4)0.005 (3)0.001 (3)0.001 (3)
C180.021 (4)0.049 (6)0.022 (4)0.007 (4)0.003 (3)0.002 (4)
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C2110.06 (2)0.06 (2)0.09 (2)0.013 (18)0.02 (2)0.003 (19)
O710.041 (4)0.011 (3)0.033 (3)0.001 (2)0.018 (3)0.006 (2)
C1670.042 (5)0.015 (4)0.032 (4)0.001 (3)0.014 (4)0.002 (3)
N310.060 (5)0.023 (4)0.025 (4)0.004 (3)0.015 (3)0.002 (3)
C1680.101 (10)0.015 (4)0.045 (6)0.016 (5)0.031 (6)0.000 (4)
C1690.086 (9)0.048 (6)0.030 (5)0.021 (6)0.018 (5)0.002 (4)
O720.021 (3)0.010 (3)0.039 (3)0.000 (2)0.009 (2)0.002 (2)
C1700.028 (4)0.018 (4)0.039 (4)0.004 (3)0.009 (4)0.001 (3)
N320.026 (4)0.026 (4)0.040 (4)0.005 (3)0.010 (3)0.002 (3)
C1710.028 (5)0.027 (5)0.042 (5)0.002 (4)0.008 (4)0.010 (4)
C1720.028 (5)0.049 (6)0.065 (7)0.001 (5)0.015 (5)0.005 (5)
O730.040 (4)0.029 (3)0.025 (3)0.003 (3)0.008 (3)0.003 (2)
C1730.037 (4)0.022 (4)0.018 (4)0.011 (3)0.006 (3)0.005 (3)
N330.059 (5)0.021 (4)0.032 (4)0.008 (3)0.023 (4)0.004 (3)
C1740.144 (13)0.041 (6)0.073 (9)0.033 (8)0.077 (9)0.018 (6)
C1750.066 (8)0.034 (6)0.046 (6)0.008 (5)0.015 (5)0.009 (5)
O740.035 (4)0.038 (7)0.026 (4)0.001 (4)0.016 (4)0.005 (4)
C1760.042 (5)0.044 (5)0.036 (5)0.004 (4)0.018 (4)0.006 (4)
N340.051 (5)0.039 (6)0.033 (5)0.007 (5)0.011 (4)0.005 (4)
C1770.062 (8)0.062 (8)0.047 (7)0.007 (7)0.005 (6)0.005 (6)
C1780.079 (9)0.058 (8)0.032 (6)0.003 (7)0.015 (6)0.003 (5)
O74B0.037 (8)0.043 (10)0.030 (9)0.003 (8)0.019 (8)0.003 (8)
C2120.042 (7)0.042 (8)0.034 (7)0.007 (7)0.015 (6)0.004 (7)
N34B0.050 (8)0.045 (8)0.034 (8)0.006 (8)0.016 (7)0.006 (7)
C2130.062 (14)0.049 (14)0.045 (13)0.000 (13)0.018 (13)0.009 (13)
C2140.062 (14)0.057 (14)0.041 (13)0.006 (13)0.009 (13)0.004 (13)
O750.020 (3)0.048 (4)0.049 (4)0.009 (3)0.013 (3)0.000 (3)
C1790.062 (7)0.075 (7)0.060 (6)0.033 (6)0.009 (5)0.005 (6)
N350.074 (7)0.098 (8)0.075 (7)0.026 (7)0.011 (6)0.030 (6)
C1800.141 (15)0.105 (13)0.080 (10)0.056 (11)0.068 (10)0.041 (9)
C1810.067 (9)0.095 (11)0.086 (10)0.017 (9)0.016 (8)0.027 (9)
O760.197 (19)0.186 (19)0.191 (19)0.007 (17)0.010 (16)0.010 (16)
C1820.132 (11)0.133 (12)0.134 (12)0.008 (10)0.029 (9)0.013 (10)
N360.104 (10)0.113 (10)0.105 (10)0.025 (8)0.035 (8)0.029 (8)
C1830.121 (17)0.127 (17)0.127 (17)0.012 (15)0.011 (14)0.040 (15)
C1840.086 (13)0.121 (15)0.074 (12)0.059 (12)0.038 (10)0.000 (11)
O76B0.21 (3)0.20 (3)0.19 (3)0.01 (2)0.051 (19)0.01 (2)
C2150.17 (2)0.17 (2)0.17 (2)0.005 (11)0.046 (11)0.001 (11)
N36B0.17 (2)0.16 (2)0.17 (2)0.009 (10)0.045 (11)0.005 (10)
C2160.12 (2)0.11 (2)0.12 (2)0.040 (18)0.056 (19)0.019 (18)
C2170.16 (3)0.15 (3)0.15 (3)0.02 (2)0.03 (2)0.01 (2)
O770.108 (10)0.119 (10)0.165 (13)0.002 (9)0.004 (9)0.041 (10)
C1850.075 (7)0.059 (6)0.087 (7)0.001 (6)0.006 (6)0.013 (6)
N370.068 (6)0.051 (5)0.068 (6)0.007 (5)0.013 (5)0.003 (4)
C1860.145 (15)0.138 (14)0.119 (13)0.059 (12)0.078 (12)0.034 (11)
C1870.091 (11)0.045 (7)0.125 (12)0.004 (7)0.038 (10)0.009 (8)
O780.095 (9)0.056 (7)0.026 (5)0.028 (6)0.001 (5)0.001 (4)
C1880.037 (6)0.044 (6)0.018 (5)0.008 (5)0.005 (4)0.008 (4)
N380.023 (4)0.037 (5)0.018 (4)0.001 (4)0.004 (3)0.008 (4)
C1890.056 (8)0.054 (8)0.015 (5)0.015 (6)0.019 (5)0.010 (5)
C1900.046 (7)0.034 (6)0.013 (5)0.020 (5)0.006 (4)0.005 (4)
O790.204 (15)0.132 (11)0.137 (12)0.047 (11)0.050 (11)0.053 (10)
C1910.131 (10)0.095 (8)0.117 (9)0.017 (8)0.046 (8)0.016 (8)
N390.121 (8)0.071 (6)0.100 (7)0.019 (6)0.068 (7)0.009 (6)
C1920.152 (15)0.124 (14)0.118 (13)0.021 (12)0.100 (11)0.026 (10)
C1930.157 (15)0.106 (12)0.137 (14)0.073 (11)0.086 (12)0.062 (11)
O800.194 (19)0.082 (11)0.068 (10)0.041 (11)0.064 (11)0.018 (8)
C1940.153 (15)0.040 (9)0.098 (12)0.028 (10)0.063 (11)0.009 (9)
N400.129 (13)0.052 (8)0.092 (10)0.031 (9)0.054 (10)0.002 (8)
C1950.123 (19)0.093 (16)0.069 (13)0.023 (14)0.042 (13)0.017 (12)
C1960.096 (16)0.093 (15)0.085 (15)0.009 (13)0.035 (12)0.031 (12)
O810.32 (3)0.23 (3)0.092 (14)0.04 (2)0.003 (18)0.011 (16)
C1970.27 (3)0.19 (2)0.090 (13)0.04 (2)0.063 (15)0.030 (15)
N410.25 (3)0.18 (2)0.067 (11)0.030 (18)0.089 (13)0.045 (12)
C1980.25 (3)0.17 (3)0.14 (2)0.04 (2)0.09 (2)0.027 (19)
C1990.24 (3)0.21 (3)0.113 (19)0.01 (2)0.08 (2)0.078 (19)
O820.136 (11)0.065 (8)0.068 (8)0.052 (8)0.039 (8)0.002 (7)
C2000.106 (8)0.073 (7)0.075 (7)0.025 (7)0.027 (7)0.007 (6)
N420.094 (7)0.069 (7)0.073 (6)0.025 (6)0.025 (6)0.005 (5)
C2010.103 (12)0.068 (11)0.080 (12)0.013 (10)0.049 (10)0.012 (10)
C2020.099 (12)0.086 (11)0.096 (12)0.015 (11)0.019 (11)0.003 (10)
O82B0.118 (13)0.082 (13)0.080 (12)0.027 (12)0.031 (11)0.002 (11)
C2210.093 (8)0.069 (8)0.072 (8)0.023 (7)0.030 (7)0.007 (7)
N42B0.095 (8)0.072 (7)0.075 (7)0.019 (7)0.028 (7)0.002 (6)
C2220.101 (15)0.071 (14)0.077 (14)0.021 (13)0.031 (13)0.015 (12)
C2230.098 (14)0.070 (14)0.068 (14)0.015 (12)0.045 (12)0.008 (12)
Geometric parameters (Å, º) top
Dy1—O252.310 (5)C89—H890.9500
Dy1—O12.324 (5)C90—C911.393 (12)
Dy1—O72.373 (5)C90—H900.9500
Dy1—O102.373 (5)C91—H910.9500
Dy1—O222.414 (5)C92—C931.482 (11)
Dy1—O132.443 (5)C93—C981.404 (12)
Dy1—O192.443 (5)C93—C941.414 (12)
Dy1—O42.451 (5)C94—C951.413 (12)
Dy1—O162.702 (5)C95—C961.382 (15)
Dy1—Al13.374 (2)C95—H950.9500
Dy1—Al23.381 (2)C96—C971.406 (16)
Dy1—Al53.468 (2)C96—H960.9500
Dy2—O342.300 (5)C97—C981.380 (13)
Dy2—O432.310 (5)C97—H970.9500
Dy2—O372.379 (5)C98—H980.9500
Dy2—O462.385 (4)C99—C1001.462 (11)
Dy2—O282.438 (5)C100—C1051.389 (13)
Dy2—O402.446 (5)C100—C1011.406 (13)
Dy2—O522.457 (5)C101—C1021.393 (13)
Dy2—O492.463 (5)C102—C1031.405 (16)
Dy2—O312.701 (5)C102—H1020.9500
Dy2—Al123.367 (2)C103—C1041.380 (17)
Dy2—Al113.411 (2)C103—H1030.9500
Dy2—Al73.469 (2)C104—C1051.381 (14)
Al1—O31.812 (6)C104—H1040.9500
Al1—O81.891 (6)C105—H1050.9500
Al1—O51.907 (6)C106—C1071.470 (11)
Al1—O71.916 (5)C107—C1121.394 (12)
Al1—O41.941 (6)C107—C1081.412 (12)
Al1—N12.002 (7)C108—C1091.404 (12)
Al1—Na23.341 (3)C109—C1101.379 (13)
Al2—O61.814 (5)C109—H1090.9500
Al2—O111.888 (5)C110—C1111.392 (13)
Al2—O561.908 (6)C110—H1100.9500
Al2—O101.909 (5)C111—C1121.381 (12)
Al2—O131.909 (5)C111—H1110.9500
Al2—N22.024 (6)C112—H1120.9500
Al2—Na53.388 (4)C113—C1141.475 (11)
Al2—Na43.465 (4)C114—C1191.380 (12)
Al3—O121.785 (6)C114—C1151.428 (12)
Al3—O181.794 (7)C115—C1161.422 (11)
Al3—O201.839 (6)C116—C1171.396 (12)
Al3—O191.875 (6)C116—H1160.9500
Al3—N41.930 (7)C117—C1181.379 (14)
Al4—O151.768 (6)C117—H1170.9500
Al4—O91.790 (6)C118—C1191.393 (13)
Al4—O231.848 (6)C118—H1180.9500
Al4—O221.883 (5)C119—H1190.9500
Al4—N31.912 (7)C120—C1211.483 (10)
Al5—O241.819 (6)C121—C1221.397 (11)
Al5—O251.881 (6)C121—C1261.409 (11)
Al5—O171.923 (6)C122—C1231.415 (11)
Al5—O261.924 (6)C123—C1241.398 (12)
Al5—O161.958 (5)C123—H1230.9500
Al5—N81.961 (7)C124—C1251.394 (13)
Al5—Na32.993 (4)C124—H1240.9500
Al6—O211.845 (6)C125—C1261.376 (12)
Al6—O271.866 (6)C125—H1250.9500
Al6—O21.892 (6)C126—H1260.9500
Al6—O11.898 (6)C127—C1281.508 (12)
Al6—N91.956 (7)C128—H12A0.9800
Al6—N72.056 (7)C128—H12B0.9800
Al6—Na13.058 (4)C128—H12C0.9800
Al7—O301.829 (6)C129—C1301.483 (12)
Al7—O341.883 (5)C130—H13A0.9800
Al7—O321.913 (6)C130—H13B0.9800
Al7—O351.919 (6)C130—H13C0.9800
Al7—N101.953 (7)O59—C1311.248 (11)
Al7—O311.978 (6)C131—N191.269 (12)
Al7—Na83.029 (4)C131—H1310.9500
Al8—O421.751 (6)N19—C1331.409 (12)
Al8—O391.784 (6)N19—C1321.507 (13)
Al8—O291.860 (6)C132—H13D0.9800
Al8—O281.900 (5)C132—H13E0.9800
Al8—N131.958 (7)C132—H13F0.9800
Al9—O511.840 (6)C133—H13G0.9800
Al9—O361.879 (6)C133—H13H0.9800
Al9—O441.887 (6)C133—H13I0.9800
Al9—O431.899 (6)O60—C1341.209 (12)
Al9—N121.973 (7)C134—N201.312 (13)
Al9—N172.064 (7)C134—H1340.9500
Al9—Na103.057 (4)N20—C1361.432 (14)
Al10—O481.785 (6)N20—C1351.451 (16)
Al10—O331.799 (7)C135—H13J0.9800
Al10—O501.824 (6)C135—H13K0.9800
Al10—O491.871 (5)C135—H13L0.9800
Al10—N161.930 (7)C136—H13M0.9800
Al11—O541.812 (6)C136—H13N0.9800
Al11—O471.877 (6)C136—H13O0.9800
Al11—O581.881 (5)O60B—C2241.23 (2)
Al11—O461.906 (5)C224—N20B1.309 (19)
Al11—O401.945 (5)C224—H2240.9500
Al11—N182.021 (7)N20B—C2261.45 (2)
Al11—Na63.470 (4)N20B—C2251.46 (2)
Al11—Na73.594 (4)C225—H22J0.9800
Al12—O451.841 (5)C225—H22K0.9800
Al12—O381.888 (6)C225—H22L0.9800
Al12—O531.898 (5)C226—H22M0.9800
Al12—O371.919 (5)C226—H22N0.9800
Al12—O521.920 (5)C226—H22O0.9800
Al12—N151.995 (6)O61—C1371.226 (10)
Al12—Na9i3.353 (3)C137—N211.333 (11)
Na1—O75ii2.344 (7)C137—H1370.9500
Na1—O212.366 (7)N21—C1381.451 (11)
Na1—O592.367 (8)N21—C1391.454 (12)
Na1—O60B2.397 (8)C138—H13P0.9800
Na1—O602.397 (8)C138—H13Q0.9800
Na1—O22.495 (6)C138—H13R0.9800
Na1—O272.585 (7)C139—H13S0.9800
Na1—Na10ii3.540 (4)C139—H13T0.9800
Na2—O63B2.338 (7)C139—H13U0.9800
Na2—O632.338 (7)O62—C1401.223 (10)
Na2—O32.353 (6)C140—N221.288 (11)
Na2—O622.386 (7)C140—H1400.9500
Na2—O612.436 (8)N22—C1411.464 (12)
Na2—O64B2.44 (7)N22—C1421.465 (12)
Na2—O642.46 (4)C141—H14A0.9800
Na2—O52.471 (6)C141—H14B0.9800
Na2—C2033.04 (4)C141—H14C0.9800
Na2—Na3iii3.112 (4)C142—H14D0.9800
Na3—O64i2.28 (3)C142—H14E0.9800
Na3—O63i2.307 (7)C142—H14F0.9800
Na3—O62i2.312 (7)O63—C1431.235 (11)
Na3—O262.423 (6)C143—N231.321 (13)
Na3—O172.466 (6)C143—H1430.9500
Na3—O242.497 (6)N23—C1441.434 (13)
Na4—O142.319 (6)N23—C1451.452 (14)
Na4—O652.327 (6)C144—H14G0.9800
Na4—O552.344 (7)C144—H14H0.9800
Na4—O162.387 (6)C144—H14I0.9800
Na4—O132.505 (6)C145—H14J0.9800
Na4—O562.652 (6)C145—H14K0.9800
Na4—C1272.825 (9)C145—H14L0.9800
Na4—C292.959 (8)O63B—C2031.37 (4)
Na4—N62.975 (8)C203—N23B1.24 (7)
Na4—Na63.601 (4)C203—H2030.9500
Na4—Na53.669 (4)N23B—C2051.47 (7)
Na5—O672.316 (7)N23B—C2041.58 (7)
Na5—O572.331 (6)C204—H20G0.9800
Na5—O662.407 (8)C204—H20H0.9800
Na5—O562.432 (6)C204—H20I0.9800
Na5—O62.485 (6)C205—H20J0.9800
Na5—O142.510 (6)C205—H20K0.9800
Na6—O682.353 (7)C205—H20L0.9800
Na6—O552.361 (7)O64—C1461.232 (19)
Na6—O412.367 (6)C146—N241.322 (14)
Na6—O582.386 (6)C146—H1460.9500
Na6—O652.471 (7)N24—C1471.459 (15)
Na6—O542.633 (6)N24—C1481.466 (14)
Na6—Na73.660 (5)C147—H14M0.9800
Na7—O69B2.30 (6)C147—H14O0.9800
Na7—O692.343 (14)C147—H14P0.9800
Na7—O402.364 (6)C148—H14Q0.9800
Na7—O572.394 (6)C148—H14R0.9800
Na7—O312.536 (6)C148—H14S0.9800
Na7—O412.554 (6)O64B—C2301.23 (2)
Na7—O582.839 (7)C230—N24B1.314 (17)
Na7—C1292.927 (9)C230—H2300.9500
Na7—N142.974 (7)N24B—C2321.455 (18)
Na7—C922.987 (8)N24B—C2311.461 (18)
Na8—O70B2.295 (7)C231—H23A0.9800
Na8—O702.295 (7)C231—H23B0.9800
Na8—O712.357 (7)C231—H23C0.9800
Na8—O722.361 (6)C232—H23D0.9800
Na8—O322.416 (6)C232—H23E0.9800
Na8—O352.447 (6)C232—H23F0.9800
Na8—O302.563 (6)O65—C1491.231 (10)
Na8—Na93.116 (4)C149—N251.325 (11)
Na9—O712.368 (6)C149—H1490.9500
Na9—O722.371 (6)N25—C1511.426 (12)
Na9—O45iii2.380 (6)N25—C1501.461 (13)
Na9—O73iii2.425 (7)C150—H15A0.9800
Na9—O53iii2.433 (6)C150—H15B0.9800
Na9—O70B2.476 (7)C150—H15C0.9800
Na9—O702.476 (7)C151—H15D0.9800
Na9—C2093.08 (2)C151—H15E0.9800
Na10—O74B2.24 (7)C151—H15F0.9800
Na10—O742.316 (13)O66—C1521.232 (12)
Na10—O59iv2.355 (7)C152—N261.356 (12)
Na10—O752.358 (8)C152—H1520.9500
Na10—O512.396 (7)N26—C1531.432 (12)
Na10—O362.523 (6)N26—C1541.434 (13)
Na10—O442.548 (6)C153—H15G0.9800
Na10—C1793.090 (14)C153—H15H0.9800
Na10—C2123.12 (4)C153—H15I0.9800
Na10—C1153.128 (9)C154—H15J0.9800
O1—N11.411 (8)C154—H15K0.9800
O2—C11.299 (10)C154—H15L0.9800
O3—C31.354 (10)O67—C1551.206 (11)
O4—N21.422 (8)C155—N271.340 (11)
O5—C81.292 (9)C155—H1550.9500
O6—C101.315 (9)N27—C1561.420 (13)
O7—N31.416 (7)N27—C1571.462 (13)
O8—C151.292 (10)C156—H15M0.9800
O9—C171.318 (10)C156—H15N0.9800
O10—N41.404 (8)C156—H15O0.9800
O11—C221.293 (10)C157—H15P0.9800
O12—C241.307 (11)C157—H15Q0.9800
O13—N51.386 (7)C157—H15R0.9800
O14—C291.244 (9)O68—C1581.229 (11)
O15—C311.358 (9)C158—N281.322 (11)
O16—N61.393 (8)C158—H1580.9500
O17—C361.284 (10)N28—C1601.452 (12)
O18—C381.337 (10)N28—C1591.459 (12)
O19—N71.426 (8)C159—H15S0.9800
O20—C431.294 (10)C159—H15T0.9800
O21—C451.326 (10)C159—H15U0.9800
O22—N81.414 (8)C160—H16A0.9800
O23—C50B1.300 (10)C160—H16B0.9800
O23—C501.300 (10)C160—H16C0.9800
O24—C521.30 (3)O69—C1611.239 (14)
O24—C52B1.35 (3)C161—N291.307 (12)
O25—N91.408 (8)C161—H1610.9500
O26—C571.314 (10)N29—C1631.459 (13)
O27—C591.317 (10)N29—C1621.466 (14)
O28—N101.411 (8)C162—H16D0.9800
O29—C641.288 (10)C162—H16E0.9800
O30—C661.342 (11)C162—H16F0.9800
O31—N111.381 (8)C163—H16G0.9800
O32—C711.299 (10)C163—H16H0.9800
O33—C731.335 (11)C163—H16I0.9800
O34—N121.397 (8)O69B—C2061.24 (2)
O35—C781.322 (10)C206—N29B1.314 (18)
O36—C801.326 (10)C206—H2060.9500
O37—N131.402 (7)N29B—C2081.445 (19)
O38—C851.286 (10)N29B—C2071.454 (19)
O39—C871.320 (11)C207—H20M0.9800
O40—N141.388 (8)C207—H20N0.9800
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O25—Dy1—O13127.49 (17)C3—C4—H4119.2
O1—Dy1—O13151.53 (17)C4—C5—C6119.9 (10)
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O13—Dy1—O19128.45 (16)O5—C8—N2120.0 (7)
O25—Dy1—O4148.56 (17)O5—C8—C9120.1 (6)
O1—Dy1—O482.10 (17)N2—C8—C9119.9 (6)
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O10—Dy1—O471.22 (17)C14—C9—C8116.9 (7)
O22—Dy1—O4126.53 (16)C10—C9—C8123.2 (6)
O13—Dy1—O482.57 (16)O6—C10—C11117.6 (7)
O19—Dy1—O480.98 (17)O6—C10—C9124.4 (6)
O25—Dy1—O1657.78 (17)C11—C10—C9118.0 (7)
O1—Dy1—O16131.06 (16)C12—C11—C10121.3 (7)
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O10—Dy1—O1675.33 (16)C10—C11—H11119.4
O22—Dy1—O1673.72 (15)C11—C12—C13121.1 (8)
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O19—Dy1—O1697.37 (17)C13—C12—H12119.5
O4—Dy1—O16144.94 (16)C12—C13—C14118.6 (8)
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O1—Dy1—Al158.34 (13)C14—C13—H13120.7
O7—Dy1—Al133.55 (12)C13—C14—C9121.2 (7)
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O22—Dy1—Al197.37 (12)C9—C14—H14119.4
O13—Dy1—Al196.54 (12)O8—C15—N3121.2 (7)
O19—Dy1—Al196.67 (14)O8—C15—C16120.6 (7)
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O16—Dy1—Al1165.26 (11)C21—C16—C17120.7 (7)
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O1—Dy1—Al2140.44 (13)C17—C16—C15121.1 (7)
O7—Dy1—Al288.15 (12)O9—C17—C16124.7 (7)
O10—Dy1—Al233.26 (13)O9—C17—C18118.5 (8)
O22—Dy1—Al2116.07 (13)C16—C17—C18116.8 (8)
O13—Dy1—Al233.63 (11)C19—C18—C17120.5 (9)
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O4—Dy1—Al258.35 (12)C17—C18—H18119.7
O16—Dy1—Al287.67 (11)C20—C19—C18122.3 (9)
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O25—Dy1—Al530.36 (13)C18—C19—H19118.9
O1—Dy1—Al598.16 (13)C19—C20—C21118.3 (9)
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O22—Dy1—Al555.58 (11)C20—C21—C16121.4 (9)
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O19—Dy1—Al597.09 (13)C16—C21—H21119.3
O4—Dy1—Al5177.88 (12)O11—C22—N4121.6 (7)
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O43—Dy2—O2889.46 (17)C24—C25—H25119.7
O37—Dy2—O2866.47 (16)C25—C26—C27121.8 (8)
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O34—Dy2—O40129.56 (17)C27—C26—H26119.1
O43—Dy2—O40149.72 (17)C28—C27—C26118.1 (9)
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O46—Dy2—O4059.65 (16)C26—C27—H27120.9
O28—Dy2—O4081.11 (17)C27—C28—C23122.2 (9)
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O43—Dy2—O5281.48 (17)C23—C28—H28118.9
O37—Dy2—O5260.00 (16)O14—C29—N5121.8 (7)
O46—Dy2—O5270.88 (16)O14—C29—C30121.6 (6)
O28—Dy2—O52126.06 (16)N5—C29—C30116.5 (6)
O40—Dy2—O5281.10 (16)O14—C29—Na448.0 (4)
O34—Dy2—O4972.53 (17)N5—C29—Na485.5 (4)
O43—Dy2—O4972.44 (17)C30—C29—Na4140.6 (5)
O37—Dy2—O49131.05 (17)C31—C30—C35118.7 (7)
O46—Dy2—O4968.98 (17)C31—C30—C29123.6 (7)
O28—Dy2—O49145.10 (17)C35—C30—C29117.1 (7)
O40—Dy2—O49128.61 (16)O15—C31—C32117.9 (7)
O52—Dy2—O4981.46 (17)O15—C31—C30121.6 (7)
O34—Dy2—O3158.36 (18)C32—C31—C30120.5 (7)
O43—Dy2—O31131.48 (17)C31—C32—C33119.3 (8)
O37—Dy2—O31131.17 (16)C31—C32—H32120.3
O46—Dy2—O3176.65 (16)C33—C32—H32120.3
O28—Dy2—O3171.86 (16)C34—C33—C32120.2 (8)
O40—Dy2—O3172.55 (16)C34—C33—H33119.9
O52—Dy2—O31145.49 (16)C32—C33—H33119.9
O49—Dy2—O3197.74 (17)C33—C34—C35120.9 (8)
O34—Dy2—Al12131.78 (13)C33—C34—H34119.6
O43—Dy2—Al1258.67 (13)C35—C34—H34119.6
O37—Dy2—Al1233.79 (12)C34—C35—C30120.3 (8)
O46—Dy2—Al12104.72 (12)C34—C35—H35119.9
O28—Dy2—Al1297.64 (12)C30—C35—H35119.9
O40—Dy2—Al1293.97 (12)O17—C36—N6118.2 (7)
O52—Dy2—Al1234.17 (12)O17—C36—C37121.4 (7)
O49—Dy2—Al1297.78 (13)N6—C36—C37120.4 (7)
O31—Dy2—Al12163.77 (12)C38—C37—C42120.3 (8)
O34—Dy2—Al11141.76 (13)C38—C37—C36121.7 (7)
O43—Dy2—Al11139.75 (13)C42—C37—C36117.9 (8)
O37—Dy2—Al1187.41 (13)O18—C38—C37122.3 (7)
O46—Dy2—Al1132.71 (12)O18—C38—C39119.2 (8)
O28—Dy2—Al11114.85 (13)C37—C38—C39118.5 (8)
O40—Dy2—Al1134.00 (12)C40—C39—C38119.8 (9)
O52—Dy2—Al1158.34 (12)C40—C39—H39120.1
O49—Dy2—Al1197.43 (12)C38—C39—H39120.1
O31—Dy2—Al1187.86 (12)C41—C40—C39121.6 (9)
Al12—Dy2—Al1185.48 (5)C41—C40—H40119.2
O34—Dy2—Al730.30 (13)C39—C40—H40119.2
O43—Dy2—Al797.96 (13)C40—C41—C42119.9 (9)
O37—Dy2—Al7121.45 (12)C40—C41—H41120.1
O46—Dy2—Al7108.59 (12)C42—C41—H41120.1
O28—Dy2—Al755.52 (12)C41—C42—C37119.9 (10)
O40—Dy2—Al7100.10 (12)C41—C42—H42120.1
O52—Dy2—Al7178.26 (12)C37—C42—H42120.1
O49—Dy2—Al796.80 (13)O20—C43—N7119.7 (7)
O31—Dy2—Al734.64 (12)O20—C43—C44118.7 (7)
Al12—Dy2—Al7146.56 (5)N7—C43—C44121.6 (7)
Al11—Dy2—Al7122.13 (5)C49—C44—C45120.0 (8)
O3—Al1—O893.9 (3)C49—C44—C43117.4 (8)
O3—Al1—O588.5 (2)C45—C44—C43122.7 (7)
O8—Al1—O596.5 (2)O21—C45—C44122.9 (7)
O3—Al1—O7174.6 (3)O21—C45—C46119.3 (8)
O8—Al1—O781.4 (2)C44—C45—C46117.8 (8)
O5—Al1—O794.6 (2)C47—C46—C45122.1 (9)
O3—Al1—O4106.9 (3)C47—C46—H46119.0
O8—Al1—O4159.0 (2)C45—C46—H46119.0
O5—Al1—O481.5 (2)C46—C47—C48120.1 (8)
O7—Al1—O477.9 (2)C46—C47—H47120.0
O3—Al1—N187.8 (3)C48—C47—H47120.0
O8—Al1—N196.9 (3)C47—C48—C49119.1 (8)
O5—Al1—N1166.3 (3)C47—C48—H48120.5
O7—Al1—N190.1 (2)C49—C48—H48120.5
O4—Al1—N187.0 (2)C44—C49—C48120.9 (9)
O3—Al1—Na242.62 (18)C44—C49—H49119.5
O8—Al1—Na2105.21 (18)C48—C49—H49119.5
O5—Al1—Na247.00 (17)O23—C50—N8118.7 (7)
O7—Al1—Na2141.20 (18)O23—C50—C51121.9 (11)
O4—Al1—Na288.82 (17)N8—C50—C51119.2 (11)
N1—Al1—Na2125.8 (2)C56—C51—C52118.9 (14)
O3—Al1—Dy1139.2 (2)C56—C51—C50117.6 (15)
O8—Al1—Dy1117.88 (17)C52—C51—C50123.4 (15)
O5—Al1—Dy1110.74 (17)O24—C52—C51123.5 (16)
O7—Al1—Dy143.19 (14)O24—C52—C53118.2 (15)
O4—Al1—Dy145.72 (15)C51—C52—C53118.2 (15)
N1—Al1—Dy164.88 (18)C54—C53—C52120.9 (16)
Na2—Al1—Dy1134.46 (9)C54—C53—H53119.5
O6—Al2—O11100.3 (2)C52—C53—H53119.5
O6—Al2—O5686.8 (2)C55—C54—C53120.6 (14)
O11—Al2—O5692.8 (2)C55—C54—H54119.7
O6—Al2—O10176.4 (2)C53—C54—H54119.7
O11—Al2—O1082.9 (2)C54—C55—C56118.7 (15)
O56—Al2—O1091.3 (2)C54—C55—H55120.6
O6—Al2—O13100.9 (2)C56—C55—H55120.6
O11—Al2—O13158.4 (2)C55—C56—C51122.4 (15)
O56—Al2—O1392.6 (2)C55—C56—H56118.8
O10—Al2—O1376.1 (2)C51—C56—H56118.8
O6—Al2—N289.8 (2)O23—C50B—N8118.7 (7)
O11—Al2—N290.2 (2)O23—C50B—C51B119.8 (14)
O56—Al2—N2175.9 (3)N8—C50B—C51B121.2 (13)
O10—Al2—N291.9 (2)C56B—C51B—C52B119.3 (17)
O13—Al2—N285.7 (2)C56B—C51B—C50B119.6 (19)
O6—Al2—Dy1135.70 (18)C52B—C51B—C50B121.2 (19)
O11—Al2—Dy1114.44 (18)O24—C52B—C53B117.0 (19)
O56—Al2—Dy1116.59 (18)O24—C52B—C51B125 (2)
O10—Al2—Dy142.99 (15)C53B—C52B—C51B118.1 (19)
O13—Al2—Dy145.13 (16)C52B—C53B—C54B121.8 (19)
N2—Al2—Dy164.57 (17)C52B—C53B—H53B119.1
O6—Al2—Na545.66 (17)C54B—C53B—H53B119.1
O11—Al2—Na5112.73 (19)C55B—C54B—C53B119.5 (17)
O56—Al2—Na544.63 (17)C55B—C54B—H54B120.2
O10—Al2—Na5131.51 (18)C53B—C54B—H54B120.2
O13—Al2—Na585.43 (18)C56B—C55B—C54B118.8 (18)
N2—Al2—Na5131.39 (19)C56B—C55B—H55B120.6
Dy1—Al2—Na5129.76 (8)C54B—C55B—H55B120.6
O6—Al2—Na4105.71 (19)C55B—C56B—C51B122.5 (18)
O11—Al2—Na4131.26 (19)C55B—C56B—H56B118.8
O56—Al2—Na449.34 (18)C51B—C56B—H56B118.8
O10—Al2—Na470.78 (17)N9—C57—O26119.0 (7)
O13—Al2—Na444.88 (16)N9—C57—C58118.0 (7)
N2—Al2—Na4129.73 (19)O26—C57—C58122.9 (7)
Dy1—Al2—Na471.70 (6)C63—C58—C59119.7 (9)
Na5—Al2—Na464.72 (8)C63—C58—C57118.8 (8)
O12—Al3—O18115.8 (3)C59—C58—C57121.4 (7)
O12—Al3—O2091.9 (3)O27—C59—C60118.8 (8)
O18—Al3—O2097.8 (3)O27—C59—C58123.2 (8)
O12—Al3—O19130.4 (3)C60—C59—C58117.9 (8)
O18—Al3—O19113.8 (3)C61—C60—C59122.0 (10)
O20—Al3—O1982.7 (3)C61—C60—H60119.0
O12—Al3—N489.9 (3)C59—C60—H60119.0
O18—Al3—N493.7 (3)C60—C61—C62120.3 (10)
O20—Al3—N4166.2 (3)C60—C61—H61119.9
O19—Al3—N485.7 (2)C62—C61—H61119.9
O15—Al4—O9111.8 (3)C61—C62—C63118.8 (10)
O15—Al4—O23101.1 (3)C61—C62—H62120.6
O9—Al4—O2392.8 (3)C63—C62—H62120.6
O15—Al4—O22107.0 (3)C62—C63—C58121.2 (10)
O9—Al4—O22141.0 (3)C62—C63—H63119.4
O23—Al4—O2283.2 (2)C58—C63—H63119.4
O15—Al4—N392.5 (3)O29—C64—N10119.9 (7)
O9—Al4—N390.0 (3)O29—C64—C65119.5 (7)
O23—Al4—N3163.9 (3)N10—C64—C65120.5 (8)
O22—Al4—N384.7 (2)C66—C65—C70118.8 (8)
O24—Al5—O25171.5 (3)C66—C65—C64122.5 (8)
O24—Al5—O1787.4 (2)C70—C65—C64118.6 (8)
O25—Al5—O1792.1 (2)O30—C66—C65123.6 (7)
O24—Al5—O2690.1 (2)O30—C66—C67117.4 (8)
O25—Al5—O2681.5 (2)C65—C66—C67118.9 (8)
O17—Al5—O2693.7 (3)C68—C67—C66121.0 (10)
O24—Al5—O16109.2 (3)C68—C67—H67119.5
O25—Al5—O1679.1 (2)C66—C67—H67119.5
O17—Al5—O1682.7 (2)C69—C68—C67120.0 (9)
O26—Al5—O16160.1 (3)C69—C68—H68120.0
O24—Al5—N889.6 (3)C67—C68—H68120.0
O25—Al5—N892.7 (2)C70—C69—C68119.4 (10)
O17—Al5—N8167.4 (3)C70—C69—H69120.3
O26—Al5—N898.5 (3)C68—C69—H69120.3
O16—Al5—N886.8 (2)C69—C70—C65121.7 (10)
O24—Al5—Na356.35 (19)C69—C70—H70119.1
O25—Al5—Na3116.83 (18)C65—C70—H70119.1
O17—Al5—Na355.17 (18)O32—C71—N11117.4 (7)
O26—Al5—Na353.87 (18)O32—C71—C72119.9 (7)
O16—Al5—Na3133.63 (19)N11—C71—C72122.7 (7)
N8—Al5—Na3131.6 (2)C73—C72—C77121.3 (8)
O24—Al5—Dy1149.0 (2)C73—C72—C71120.1 (7)
O25—Al5—Dy138.38 (15)C77—C72—C71118.1 (8)
O17—Al5—Dy1109.69 (18)O33—C73—C72122.3 (8)
O26—Al5—Dy1113.39 (18)O33—C73—C74121.2 (8)
O16—Al5—Dy150.92 (16)C72—C73—C74116.5 (8)
N8—Al5—Dy168.02 (18)C75—C74—C73121.1 (9)
Na3—Al5—Dy1154.37 (10)C75—C74—H74119.4
O21—Al6—O2785.1 (3)C73—C74—H74119.4
O21—Al6—O290.7 (3)C76—C75—C74120.7 (9)
O27—Al6—O291.6 (3)C76—C75—H75119.7
O21—Al6—O1170.2 (3)C74—C75—H75119.7
O27—Al6—O1101.1 (3)C77—C76—C75119.3 (10)
O2—Al6—O181.6 (2)C77—C76—H76120.4
O21—Al6—N9104.1 (3)C75—C76—H76120.4
O27—Al6—N986.2 (3)C76—C77—C72120.9 (10)
O2—Al6—N9164.8 (3)C76—C77—H77119.5
O1—Al6—N984.0 (3)C72—C77—H77119.5
O21—Al6—N786.7 (3)N12—C78—O35118.6 (7)
O27—Al6—N7168.7 (3)N12—C78—C79119.4 (7)
O2—Al6—N796.4 (3)O35—C78—C79122.0 (7)
O1—Al6—N788.1 (2)C84—C79—C80120.4 (9)
N9—Al6—N788.1 (3)C84—C79—C78119.1 (8)
O21—Al6—Na150.6 (2)C80—C79—C78120.3 (7)
O27—Al6—Na157.38 (19)O36—C80—C81118.5 (8)
O2—Al6—Na154.60 (18)O36—C80—C79123.7 (8)
O1—Al6—Na1126.85 (19)C81—C80—C79117.8 (8)
N9—Al6—Na1133.8 (2)C82—C81—C80121.0 (9)
N7—Al6—Na1121.8 (2)C82—C81—H81119.5
O30—Al7—O34170.9 (3)C80—C81—H81119.5
O30—Al7—O3286.2 (3)C83—C82—C81120.3 (9)
O34—Al7—O3293.1 (3)C83—C82—H82119.8
O30—Al7—O3589.6 (3)C81—C82—H82119.8
O34—Al7—O3581.4 (2)C82—C83—C84120.7 (9)
O32—Al7—O3593.3 (2)C82—C83—H83119.6
O30—Al7—N1089.7 (3)C84—C83—H83119.6
O34—Al7—N1093.1 (3)C79—C84—C83119.7 (10)
O32—Al7—N10166.1 (3)C79—C84—H84120.2
O35—Al7—N1099.9 (3)C83—C84—H84120.2
O30—Al7—O31109.6 (3)O38—C85—N13120.7 (7)
O34—Al7—O3179.2 (2)O38—C85—C86120.1 (7)
O32—Al7—O3181.9 (2)N13—C85—C86119.2 (7)
O35—Al7—O31159.7 (3)C91—C86—C87120.9 (7)
N10—Al7—O3187.0 (3)C91—C86—C85118.0 (7)
O30—Al7—Na857.50 (19)C87—C86—C85121.1 (7)
O34—Al7—Na8115.21 (19)O39—C87—C86124.5 (7)
O32—Al7—Na852.86 (17)O39—C87—C88118.7 (8)
O35—Al7—Na853.75 (17)C86—C87—C88116.9 (8)
N10—Al7—Na8133.9 (2)C89—C88—C87121.8 (9)
O31—Al7—Na8131.61 (19)C89—C88—H88119.1
O30—Al7—Dy2150.1 (2)C87—C88—H88119.1
O34—Al7—Dy238.04 (16)C88—C89—C90120.6 (8)
O32—Al7—Dy2109.42 (18)C88—C89—H89119.7
O35—Al7—Dy2113.80 (18)C90—C89—H89119.7
N10—Al7—Dy268.98 (19)C89—C90—C91118.6 (8)
O31—Al7—Dy250.93 (16)C89—C90—H90120.7
Na8—Al7—Dy2151.78 (10)C91—C90—H90120.7
O42—Al8—O39110.1 (3)C86—C91—C90121.3 (8)
O42—Al8—O2999.1 (3)C86—C91—H91119.4
O39—Al8—O2989.5 (3)C90—C91—H91119.4
O42—Al8—O28108.2 (3)O41—C92—N14123.8 (7)
O39—Al8—O28141.6 (3)O41—C92—C93123.6 (7)
O29—Al8—O2882.7 (2)N14—C92—C93112.6 (7)
O42—Al8—N13103.6 (3)O41—C92—Na758.0 (4)
O39—Al8—N1389.3 (3)N14—C92—Na776.6 (4)
O29—Al8—N13156.2 (3)C93—C92—Na7146.1 (5)
O28—Al8—N1383.6 (2)C98—C93—C94120.9 (8)
O51—Al9—O3685.3 (2)C98—C93—C92118.5 (7)
O51—Al9—O4491.9 (3)C94—C93—C92120.6 (7)
O36—Al9—O4491.4 (3)O42—C94—C95120.4 (8)
O51—Al9—O43170.8 (3)O42—C94—C93122.2 (7)
O36—Al9—O43101.5 (2)C95—C94—C93117.3 (8)
O44—Al9—O4381.7 (2)C96—C95—C94120.9 (9)
O51—Al9—N12103.2 (3)C96—C95—H95119.6
O36—Al9—N1285.9 (3)C94—C95—H95119.6
O44—Al9—N12164.3 (3)C95—C96—C97121.4 (9)
O43—Al9—N1283.7 (2)C95—C96—H96119.3
O51—Al9—N1786.1 (3)C97—C96—H96119.3
O36—Al9—N17168.7 (3)C98—C97—C96118.4 (9)
O44—Al9—N1796.2 (3)C98—C97—H97120.8
O43—Al9—N1787.9 (2)C96—C97—H97120.8
N12—Al9—N1789.0 (3)C97—C98—C93121.0 (9)
O51—Al9—Na1051.6 (2)C97—C98—H98119.5
O36—Al9—Na1055.48 (19)C93—C98—H98119.5
O44—Al9—Na1056.23 (18)O44—C99—N15120.3 (7)
O43—Al9—Na10127.64 (19)O44—C99—C100119.0 (7)
N12—Al9—Na10131.7 (2)N15—C99—C100120.7 (7)
N17—Al9—Na10123.0 (2)C105—C100—C101120.4 (8)
O48—Al10—O33111.9 (3)C105—C100—C99118.3 (8)
O48—Al10—O5090.1 (3)C101—C100—C99121.3 (8)
O33—Al10—O50102.6 (3)O45—C101—C102117.0 (8)
O48—Al10—O49137.1 (3)O45—C101—C100125.0 (8)
O33—Al10—O49110.9 (3)C102—C101—C100118.1 (9)
O50—Al10—O4983.1 (3)C101—C102—C103120.8 (10)
O48—Al10—N1690.0 (3)C101—C102—H102119.6
O33—Al10—N1692.7 (3)C103—C102—H102119.6
O50—Al10—N16163.5 (3)C104—C103—C102120.3 (10)
O49—Al10—N1685.6 (3)C104—C103—H103119.8
O54—Al11—O4796.7 (2)C102—C103—H103119.8
O54—Al11—O5886.7 (2)C103—C104—C105119.2 (10)
O47—Al11—O5896.2 (2)C103—C104—H104120.4
O54—Al11—O46178.9 (3)C105—C104—H104120.4
O47—Al11—O4683.0 (2)C104—C105—C100121.2 (10)
O58—Al11—O4692.3 (2)C104—C105—H105119.4
O54—Al11—O40103.1 (2)C100—C105—H105119.4
O47—Al11—O40159.8 (2)O47—C106—N16121.1 (7)
O58—Al11—O4088.7 (2)O47—C106—C107119.6 (7)
O46—Al11—O4077.2 (2)N16—C106—C107119.2 (7)
O54—Al11—N1890.2 (2)C112—C107—C108120.0 (7)
O47—Al11—N1892.1 (2)C112—C107—C106118.2 (8)
O58—Al11—N18171.4 (3)C108—C107—C106121.7 (7)
O46—Al11—N1890.9 (2)O48—C108—C109118.2 (8)
O40—Al11—N1884.2 (2)O48—C108—C107123.8 (7)
O54—Al11—Dy2138.31 (19)C109—C108—C107117.9 (8)
O47—Al11—Dy2116.10 (18)C110—C109—C108120.9 (8)
O58—Al11—Dy2112.76 (18)C110—C109—H109119.5
O46—Al11—Dy242.54 (14)C108—C109—H109119.5
O40—Al11—Dy244.69 (15)C109—C110—C111121.1 (8)
N18—Al11—Dy265.02 (17)C109—C110—H110119.5
O54—Al11—Na648.14 (18)C111—C110—H110119.5
O47—Al11—Na6109.93 (19)C112—C111—C110118.7 (8)
O58—Al11—Na640.76 (17)C112—C111—H111120.6
O46—Al11—Na6130.93 (18)C110—C111—H111120.6
O40—Al11—Na686.50 (17)C111—C112—C107121.3 (8)
N18—Al11—Na6133.5 (2)C111—C112—H112119.3
Dy2—Al11—Na6129.55 (8)C107—C112—H112119.3
O54—Al11—Na7101.74 (19)N17—C113—O50120.1 (7)
O47—Al11—Na7141.07 (18)N17—C113—C114122.1 (7)
O58—Al11—Na751.60 (18)O50—C113—C114117.8 (7)
O46—Al11—Na777.85 (17)C119—C114—C115120.5 (8)
O40—Al11—Na737.36 (16)C119—C114—C113118.9 (7)
N18—Al11—Na7121.57 (19)C115—C114—C113120.6 (7)
Dy2—Al11—Na768.99 (7)O51—C115—C116119.6 (7)
Na6—Al11—Na762.39 (8)O51—C115—C114123.4 (7)
O45—Al12—O3894.0 (2)C116—C115—C114117.0 (7)
O45—Al12—O5388.2 (2)O51—C115—Na1045.1 (4)
O38—Al12—O5397.1 (2)C116—C115—Na1088.3 (5)
O45—Al12—O37174.5 (3)C114—C115—Na10140.0 (6)
O38—Al12—O3780.7 (2)C117—C116—C115120.9 (8)
O53—Al12—O3794.0 (2)C117—C116—H116119.6
O45—Al12—O52107.2 (2)C115—C116—H116119.6
O38—Al12—O52158.7 (2)C118—C117—C116120.9 (8)
O53—Al12—O5282.2 (2)C118—C117—H117119.6
O37—Al12—O5278.1 (2)C116—C117—H117119.6
O45—Al12—N1588.0 (2)C117—C118—C119119.2 (8)
O38—Al12—N1596.4 (3)C117—C118—H118120.4
O53—Al12—N15166.2 (3)C119—C118—H118120.4
O37—Al12—N1591.0 (2)C114—C119—C118121.5 (9)
O52—Al12—N1586.3 (2)C114—C119—H119119.2
O45—Al12—Na9i43.41 (18)C118—C119—H119119.2
O38—Al12—Na9i104.03 (18)O53—C120—N18121.0 (7)
O53—Al12—Na9i45.47 (17)O53—C120—C121118.8 (6)
O37—Al12—Na9i139.37 (19)N18—C120—C121120.2 (6)
O52—Al12—Na9i90.68 (16)C122—C121—C126120.0 (7)
N15—Al12—Na9i127.6 (2)C122—C121—C120122.7 (6)
O45—Al12—Dy2139.7 (2)C126—C121—C120117.2 (7)
O38—Al12—Dy2116.73 (17)O54—C122—C121125.2 (7)
O53—Al12—Dy2111.37 (17)O54—C122—C123116.4 (7)
O37—Al12—Dy243.58 (14)C121—C122—C123118.4 (7)
O52—Al12—Dy245.95 (14)C124—C123—C122120.9 (8)
N15—Al12—Dy264.52 (18)C124—C123—H123119.6
Na9i—Al12—Dy2136.39 (9)C122—C123—H123119.6
O75ii—Na1—O21109.8 (3)C125—C124—C123119.7 (8)
O75ii—Na1—O5982.6 (2)C125—C124—H124120.2
O21—Na1—O59151.1 (3)C123—C124—H124120.2
O75ii—Na1—O60B97.9 (3)C126—C125—C124120.1 (7)
O21—Na1—O60B94.7 (3)C126—C125—H125120.0
O59—Na1—O60B109.8 (3)C124—C125—H125120.0
O75ii—Na1—O6097.9 (3)C125—C126—C121120.9 (8)
O21—Na1—O6094.7 (3)C125—C126—H126119.6
O59—Na1—O60109.8 (3)C121—C126—H126119.6
O75ii—Na1—O2175.3 (3)O55—C127—O56123.2 (7)
O21—Na1—O266.2 (2)O55—C127—C128118.5 (7)
O59—Na1—O299.8 (2)O56—C127—C128118.2 (7)
O60B—Na1—O285.2 (2)O55—C127—Na454.8 (4)
O60—Na1—O285.2 (2)O56—C127—Na469.0 (4)
O75ii—Na1—O27112.0 (3)C128—C127—Na4171.2 (7)
O21—Na1—O2760.8 (2)C127—C128—H12A109.5
O59—Na1—O2790.5 (2)C127—C128—H12B109.5
O60B—Na1—O27145.9 (2)H12A—C128—H12B109.5
O60—Na1—O27145.9 (2)C127—C128—H12C109.5
O2—Na1—O2764.02 (19)H12A—C128—H12C109.5
O75ii—Na1—Al6137.1 (2)H12B—C128—H12C109.5
O21—Na1—Al637.07 (15)O57—C129—O58121.7 (8)
O59—Na1—Al6117.0 (2)O57—C129—C130120.0 (7)
O60B—Na1—Al6108.8 (2)O58—C129—C130118.3 (7)
O60—Na1—Al6108.8 (2)O57—C129—Na753.2 (4)
O2—Na1—Al638.17 (13)O58—C129—Na773.3 (5)
O27—Na1—Al637.45 (14)C130—C129—Na7156.0 (6)
O75ii—Na1—Na10ii41.3 (2)C129—C130—H13A109.5
O21—Na1—Na10ii144.92 (19)C129—C130—H13B109.5
O59—Na1—Na10ii41.30 (16)H13A—C130—H13B109.5
O60—Na1—Na10ii107.0 (2)C129—C130—H13C109.5
O2—Na1—Na10ii141.09 (19)H13A—C130—H13C109.5
O27—Na1—Na10ii106.20 (17)H13B—C130—H13C109.5
Al6—Na1—Na10ii143.53 (13)C131—O59—Na10ii142.7 (8)
O63B—Na2—O3165.3 (3)C131—O59—Na1117.2 (8)
O63—Na2—O3165.3 (3)Na10ii—O59—Na197.1 (3)
O63B—Na2—O6278.5 (2)O59—C131—N19131.8 (13)
O63—Na2—O6278.5 (2)O59—C131—H131114.1
O3—Na2—O62116.2 (3)N19—C131—H131114.1
O63B—Na2—O6199.6 (3)C131—N19—C133130.4 (13)
O63—Na2—O6199.6 (3)C131—N19—C132117.3 (12)
O3—Na2—O6184.3 (2)C133—N19—C132110.9 (12)
O62—Na2—O6184.5 (3)N19—C132—H13D109.5
O63B—Na2—O64B83.4 (14)N19—C132—H13E109.5
O3—Na2—O64B97.8 (13)H13D—C132—H13E109.5
O62—Na2—O64B77 (2)N19—C132—H13F109.5
O61—Na2—O64B160 (2)H13D—C132—H13F109.5
O63—Na2—O6481.2 (7)H13E—C132—H13F109.5
O3—Na2—O6499.8 (7)N19—C133—H13G109.5
O62—Na2—O6476.8 (10)N19—C133—H13H109.5
O61—Na2—O64160.8 (11)H13G—C133—H13H109.5
O63B—Na2—O5100.4 (2)N19—C133—H13I109.5
O63—Na2—O5100.4 (2)H13G—C133—H13I109.5
O3—Na2—O565.0 (2)H13H—C133—H13I109.5
O62—Na2—O5165.2 (3)C134—O60—Na1124.1 (7)
O61—Na2—O5110.1 (2)O60—C134—N20126.8 (12)
O64B—Na2—O588 (2)O60—C134—H134116.6
O64—Na2—O588.4 (10)N20—C134—H134116.6
O63B—Na2—C20325.5 (8)C134—N20—C136127.0 (13)
O3—Na2—C203143.4 (7)C134—N20—C135115.3 (12)
O62—Na2—C20397.2 (7)C136—N20—C135116.5 (13)
O61—Na2—C20384.3 (8)N20—C135—H13J109.5
O64B—Na2—C203104.5 (17)N20—C135—H13K109.5
O5—Na2—C20386.7 (6)H13J—C135—H13K109.5
O63—Na2—Na3iii47.51 (17)N20—C135—H13L109.5
O3—Na2—Na3iii141.2 (2)H13J—C135—H13L109.5
O62—Na2—Na3iii47.51 (17)H13K—C135—H13L109.5
O61—Na2—Na3iii121.2 (2)N20—C136—H13M109.5
O64—Na2—Na3iii46.6 (7)N20—C136—H13N109.5
O5—Na2—Na3iii121.42 (19)H13M—C136—H13N109.5
O63B—Na2—Al1133.8 (2)N20—C136—H13O109.5
O63—Na2—Al1133.8 (2)H13M—C136—H13O109.5
O3—Na2—Al131.44 (14)H13N—C136—H13O109.5
O62—Na2—Al1147.3 (2)C224—O60B—Na1140 (3)
O61—Na2—Al192.94 (19)O60B—C224—N20B132 (4)
O64B—Na2—Al199.0 (16)O60B—C224—H224114.1
O64—Na2—Al1100.3 (8)N20B—C224—H224114.1
O5—Na2—Al134.35 (13)C224—N20B—C226123 (3)
C203—Na2—Al1115.0 (7)C224—N20B—C225121 (3)
Na3iii—Na2—Al1145.85 (14)C226—N20B—C225115 (3)
O64i—Na3—O63i85.9 (11)N20B—C225—H22J109.5
O64i—Na3—O62i81.9 (11)N20B—C225—H22K109.5
O63i—Na3—O62i80.6 (3)H22J—C225—H22K109.5
O64i—Na3—O26109.8 (10)N20B—C225—H22L109.5
O63i—Na3—O26161.6 (3)H22J—C225—H22L109.5
O62i—Na3—O26110.3 (3)H22K—C225—H22L109.5
O64i—Na3—O17174.6 (11)N20B—C226—H22M109.5
O63i—Na3—O1793.4 (2)N20B—C226—H22N109.5
O62i—Na3—O17103.2 (2)H22M—C226—H22N109.5
O26—Na3—O1770.07 (19)N20B—C226—H22O109.5
O64i—Na3—O24112.0 (11)H22M—C226—H22O109.5
O63i—Na3—O24100.6 (2)H22N—C226—H22O109.5
O62i—Na3—O24166.0 (3)C137—O61—Na2117.4 (6)
O26—Na3—O2465.2 (2)O61—C137—N21125.7 (9)
O17—Na3—O2462.82 (19)O61—C137—H137117.1
O64i—Na3—Al5137.1 (10)N21—C137—H137117.1
O63i—Na3—Al5121.8 (2)C137—N21—C138123.7 (9)
O62i—Na3—Al5130.8 (2)C137—N21—C139122.6 (8)
O26—Na3—Al539.90 (14)C138—N21—C139113.2 (9)
O17—Na3—Al539.79 (13)N21—C138—H13P109.5
O24—Na3—Al537.34 (13)N21—C138—H13Q109.5
O64i—Na3—Na2i51.5 (10)H13P—C138—H13Q109.5
O63i—Na3—Na2i48.36 (17)N21—C138—H13R109.5
O62i—Na3—Na2i49.53 (18)H13P—C138—H13R109.5
O26—Na3—Na2i149.7 (2)H13Q—C138—H13R109.5
O17—Na3—Na2i130.99 (19)N21—C139—H13S109.5
O24—Na3—Na2i140.05 (19)N21—C139—H13T109.5
Al5—Na3—Na2i169.50 (15)H13S—C139—H13T109.5
O14—Na4—O65105.1 (2)N21—C139—H13U109.5
O14—Na4—O55120.3 (2)H13S—C139—H13U109.5
O65—Na4—O5583.0 (2)H13T—C139—H13U109.5
O14—Na4—O16128.6 (2)C140—O62—Na3iii141.3 (6)
O65—Na4—O16103.3 (2)C140—O62—Na2122.4 (6)
O55—Na4—O16104.9 (2)Na3iii—O62—Na283.0 (2)
O14—Na4—O1367.51 (18)O62—C140—N22125.9 (9)
O65—Na4—O13167.0 (2)O62—C140—H140117.0
O55—Na4—O13109.9 (2)N22—C140—H140117.0
O16—Na4—O1375.54 (19)C140—N22—C141120.1 (9)
O14—Na4—O5679.99 (19)C140—N22—C142124.5 (10)
O65—Na4—O56126.0 (2)C141—N22—C142114.7 (10)
O55—Na4—O5651.94 (18)N22—C141—H14A109.5
O16—Na4—O56114.9 (2)N22—C141—H14B109.5
O13—Na4—O5664.62 (17)H14A—C141—H14B109.5
O14—Na4—C127102.6 (2)N22—C141—H14C109.5
O65—Na4—C127105.3 (2)H14A—C141—H14C109.5
O55—Na4—C12725.1 (2)H14B—C141—H14C109.5
O16—Na4—C127110.0 (2)N22—C142—H14D109.5
O13—Na4—C12787.0 (2)N22—C142—H14E109.5
O56—Na4—C12726.95 (19)H14D—C142—H14E109.5
O14—Na4—C2923.5 (2)N22—C142—H14F109.5
O65—Na4—C29119.7 (2)H14D—C142—H14F109.5
O55—Na4—C29135.8 (2)H14E—C142—H14F109.5
O16—Na4—C29105.4 (2)C143—O63—Na3iii122.8 (6)
O13—Na4—C2949.84 (18)C143—O63—Na2152.4 (7)
O56—Na4—C2986.14 (19)Na3iii—O63—Na284.1 (2)
C127—Na4—C29112.6 (2)O63—C143—N23125.8 (10)
O14—Na4—N6152.8 (2)O63—C143—H143117.1
O65—Na4—N696.9 (2)N23—C143—H143117.1
O55—Na4—N677.6 (2)C143—N23—C144121.6 (11)
O16—Na4—N627.41 (17)C143—N23—C145119.5 (11)
O13—Na4—N687.71 (19)C144—N23—C145118.5 (11)
O56—Na4—N6100.03 (19)N23—C144—H14G109.5
C127—Na4—N686.5 (2)N23—C144—H14H109.5
C29—Na4—N6129.5 (2)H14G—C144—H14H109.5
O14—Na4—Al276.59 (15)N23—C144—H14I109.5
O65—Na4—Al2159.0 (2)H14G—C144—H14I109.5
O55—Na4—Al278.36 (16)H14H—C144—H14I109.5
O16—Na4—Al290.97 (15)N23—C145—H14J109.5
O13—Na4—Al232.52 (12)N23—C145—H14K109.5
O56—Na4—Al233.08 (12)H14J—C145—H14K109.5
C127—Na4—Al254.60 (16)N23—C145—H14L109.5
C29—Na4—Al269.78 (15)H14J—C145—H14L109.5
N6—Na4—Al288.62 (15)H14K—C145—H14L109.5
O14—Na4—Na6118.61 (17)C203—O63B—Na2107.3 (17)
O65—Na4—Na642.90 (16)Na3iii—O63B—Na284.1 (2)
O55—Na4—Na640.24 (16)N23B—C203—O63B118 (4)
O16—Na4—Na6111.42 (16)N23B—C203—Na2165 (4)
O13—Na4—Na6149.79 (16)O63B—C203—Na247.2 (14)
O56—Na4—Na686.63 (14)N23B—C203—H203121.1
C127—Na4—Na662.85 (17)O63B—C203—H203121.1
C29—Na4—Na6142.01 (18)Na2—C203—H20374.0
N6—Na4—Na688.45 (15)C203—N23B—C205125 (5)
Al2—Na4—Na6117.44 (10)C203—N23B—C204128 (5)
O14—Na4—Na542.54 (14)C205—N23B—C204106 (5)
O65—Na4—Na5110.2 (2)N23B—C204—H20G109.5
O55—Na4—Na578.67 (17)N23B—C204—H20H109.5
O16—Na4—Na5146.51 (17)H20G—C204—H20H109.5
O13—Na4—Na572.11 (14)N23B—C204—H20I109.5
O56—Na4—Na541.49 (13)H20G—C204—H20I109.5
C127—Na4—Na560.31 (17)H20H—C204—H20I109.5
C29—Na4—Na558.51 (16)N23B—C205—H20J109.5
N6—Na4—Na5141.18 (17)N23B—C205—H20K109.5
Al2—Na4—Na556.62 (7)H20J—C205—H20K109.5
Na6—Na4—Na592.92 (10)N23B—C205—H20L109.5
O67—Na5—O57104.2 (3)H20J—C205—H20L109.5
O67—Na5—O6688.0 (3)H20K—C205—H20L109.5
O57—Na5—O6686.1 (3)C146—O64—Na3iii154 (3)
O67—Na5—O56164.2 (3)C146—O64—Na2121 (3)
O57—Na5—O5683.5 (2)Na3iii—O64—Na281.9 (6)
O66—Na5—O56106.4 (3)O64—C146—N24125 (2)
O67—Na5—O6111.1 (3)O64—C146—H146117.7
O57—Na5—O6144.6 (2)N24—C146—H146117.7
O66—Na5—O693.3 (3)C146—N24—C147122.7 (13)
O56—Na5—O662.69 (18)C146—N24—C148122.3 (12)
O67—Na5—O1484.8 (3)C147—N24—C148114.6 (13)
O57—Na5—O1495.0 (2)N24—C147—H14M109.5
O66—Na5—O14172.8 (3)N24—C147—H14O109.5
O56—Na5—O1480.8 (2)H14M—C147—H14O109.5
O6—Na5—O1489.90 (19)N24—C147—H14P109.5
O67—Na5—Al2135.6 (2)H14M—C147—H14P109.5
O57—Na5—Al2116.83 (19)H14O—C147—H14P109.5
O66—Na5—Al2109.9 (2)N24—C148—H14Q109.5
O56—Na5—Al233.44 (13)N24—C148—H14R109.5
O6—Na5—Al231.47 (13)H14Q—C148—H14R109.5
O14—Na5—Al275.98 (15)N24—C148—H14S109.5
O67—Na5—Na4121.7 (2)H14Q—C148—H14S109.5
O57—Na5—Na475.71 (17)H14R—C148—H14S109.5
O66—Na5—Na4148.0 (2)C230—O64B—Na2113 (5)
O56—Na5—Na446.24 (15)Na3iii—O64B—Na281.2 (12)
O6—Na5—Na487.06 (15)O64B—C230—N24B126 (4)
O14—Na5—Na438.65 (13)O64B—C230—H230117.2
Al2—Na5—Na458.66 (7)N24B—C230—H230117.2
O68—Na6—O5594.9 (3)C230—N24B—C232122 (2)
O68—Na6—O41107.5 (3)C230—N24B—C231120 (2)
O55—Na6—O4197.9 (2)C232—N24B—C231116 (2)
O68—Na6—O58160.0 (3)N24B—C231—H23A109.5
O55—Na6—O5899.0 (2)N24B—C231—H23B109.5
O41—Na6—O5884.8 (2)H23A—C231—H23B109.5
O68—Na6—O6590.1 (3)N24B—C231—H23C109.5
O55—Na6—O6579.7 (2)H23A—C231—H23C109.5
O41—Na6—O65162.4 (2)H23B—C231—H23C109.5
O58—Na6—O6578.4 (2)N24B—C232—H23D109.5
O68—Na6—O54105.7 (2)N24B—C232—H23E109.5
O55—Na6—O54159.3 (2)H23D—C232—H23E109.5
O41—Na6—O5478.4 (2)N24B—C232—H23F109.5
O58—Na6—O5460.43 (18)H23D—C232—H23F109.5
O65—Na6—O5497.6 (2)H23E—C232—H23F109.5
O68—Na6—Al11136.5 (2)C149—O65—Na4148.6 (6)
O55—Na6—Al11128.47 (19)C149—O65—Na6113.0 (6)
O41—Na6—Al1173.47 (16)Na4—O65—Na697.2 (2)
O58—Na6—Al1130.99 (13)O65—C149—N25124.8 (9)
O65—Na6—Al1194.20 (18)O65—C149—H149117.6
O54—Na6—Al1130.83 (12)N25—C149—H149117.6
O68—Na6—Na495.6 (2)C149—N25—C151121.1 (10)
O55—Na6—Na439.90 (16)C149—N25—C150119.5 (9)
O41—Na6—Na4134.24 (19)C151—N25—C150119.2 (10)
O58—Na6—Na486.11 (16)N25—C150—H15A109.5
O65—Na6—Na439.88 (15)N25—C150—H15B109.5
O54—Na6—Na4132.85 (16)H15A—C150—H15B109.5
Al11—Na6—Na4114.87 (10)N25—C150—H15C109.5
O68—Na6—Na7147.5 (2)H15A—C150—H15C109.5
O55—Na6—Na778.06 (18)H15B—C150—H15C109.5
O41—Na6—Na743.93 (15)N25—C151—H15D109.5
O58—Na6—Na750.82 (16)N25—C151—H15E109.5
O65—Na6—Na7119.06 (18)H15D—C151—H15E109.5
O54—Na6—Na785.60 (15)N25—C151—H15F109.5
Al11—Na6—Na760.47 (8)H15D—C151—H15F109.5
Na4—Na6—Na798.51 (10)H15E—C151—H15F109.5
O69B—Na7—O40123.7 (15)C152—O66—Na5127.6 (8)
O69—Na7—O40115.9 (4)O66—C152—N26125.2 (11)
O69B—Na7—O57129.3 (13)O66—C152—H152117.4
O69—Na7—O57138.4 (4)N26—C152—H152117.4
O40—Na7—O57105.1 (2)C152—N26—C153117.8 (10)
O69B—Na7—O31111.5 (16)C152—N26—C154122.9 (10)
O69—Na7—O31104.5 (4)C153—N26—C154119.3 (10)
O40—Na7—O3176.98 (19)N26—C153—H15G109.5
O57—Na7—O3190.7 (2)N26—C153—H15H109.5
O69B—Na7—O4179.9 (18)H15G—C153—H15H109.5
O69—Na7—O4181.1 (4)N26—C153—H15I109.5
O40—Na7—O4168.18 (19)H15G—C153—H15I109.5
O57—Na7—O41109.3 (2)H15H—C153—H15I109.5
O31—Na7—O41143.1 (2)N26—C154—H15J109.5
O69B—Na7—O58147.4 (16)N26—C154—H15K109.5
O69—Na7—O58152.8 (4)H15J—C154—H15K109.5
O40—Na7—O5861.10 (17)N26—C154—H15L109.5
O57—Na7—O5849.46 (17)H15J—C154—H15L109.5
O31—Na7—O58101.03 (19)H15K—C154—H15L109.5
O41—Na7—O5872.72 (18)C155—O67—Na5133.5 (7)
O69B—Na7—C129149.2 (12)O67—C155—N27125.9 (11)
O69—Na7—C129159.2 (4)O67—C155—H155117.0
O40—Na7—C12980.8 (2)N27—C155—H155117.0
O57—Na7—C12924.9 (2)C155—N27—C156121.3 (10)
O31—Na7—C12990.8 (2)C155—N27—C157120.3 (10)
O41—Na7—C12995.1 (2)C156—N27—C157118.4 (10)
O58—Na7—C12925.75 (19)N27—C156—H15M109.5
O69B—Na7—N1498.4 (16)N27—C156—H15N109.5
O69—Na7—N1492.2 (4)H15M—C156—H15N109.5
O40—Na7—N1427.20 (17)N27—C156—H15O109.5
O57—Na7—N14125.2 (2)H15M—C156—H15O109.5
O31—Na7—N1495.4 (2)H15N—C156—H15O109.5
O41—Na7—N1447.76 (18)N27—C157—H15P109.5
O58—Na7—N1476.03 (18)N27—C157—H15Q109.5
C129—Na7—N14100.4 (2)H15P—C157—H15Q109.5
O69B—Na7—C9281.6 (17)N27—C157—H15R109.5
O69—Na7—C9278.5 (4)H15P—C157—H15R109.5
O40—Na7—C9251.0 (2)H15Q—C157—H15R109.5
O57—Na7—C92126.9 (2)C158—O68—Na6138.1 (7)
O31—Na7—C92119.6 (2)O68—C158—N28124.7 (9)
O41—Na7—C9224.6 (2)O68—C158—H158117.6
O58—Na7—C9280.8 (2)N28—C158—H158117.6
C129—Na7—C92106.3 (2)C158—N28—C160123.6 (9)
N14—Na7—C9225.6 (2)C158—N28—C159119.6 (8)
O69B—Na7—Al11145.8 (17)C160—N28—C159116.6 (9)
O69—Na7—Al11141.5 (4)N28—C159—H15S109.5
O40—Na7—Al1129.96 (13)N28—C159—H15T109.5
O57—Na7—Al1176.65 (16)H15S—C159—H15T109.5
O31—Na7—Al1186.53 (15)N28—C159—H15U109.5
O41—Na7—Al1169.36 (15)H15S—C159—H15U109.5
O58—Na7—Al1131.29 (11)H15T—C159—H15U109.5
C129—Na7—Al1151.80 (16)N28—C160—H16A109.5
N14—Na7—Al1149.65 (14)N28—C160—H16B109.5
C92—Na7—Al1164.28 (16)H16A—C160—H16B109.5
O69B—Na7—Na6106.8 (16)N28—C160—H16C109.5
O69—Na7—Na6112.6 (4)H16A—C160—H16C109.5
O40—Na7—Na676.69 (15)H16B—C160—H16C109.5
O57—Na7—Na669.37 (16)C161—O69—Na7125.1 (12)
O31—Na7—Na6141.14 (17)O69—C161—N29129.8 (14)
O41—Na7—Na640.01 (14)O69—C161—H161115.1
O58—Na7—Na640.66 (12)N29—C161—H161115.1
C129—Na7—Na657.12 (17)C161—N29—C163123.1 (12)
N14—Na7—Na672.50 (15)C161—N29—C162119.8 (11)
C92—Na7—Na659.74 (17)C163—N29—C162115.8 (10)
Al11—Na7—Na657.15 (8)N29—C162—H16D109.5
O70B—Na8—O7181.2 (2)N29—C162—H16E109.5
O70—Na8—O7181.2 (2)H16D—C162—H16E109.5
O70B—Na8—O7287.8 (2)N29—C162—H16F109.5
O70—Na8—O7287.8 (2)H16D—C162—H16F109.5
O71—Na8—O7279.6 (2)H16E—C162—H16F109.5
O70B—Na8—O32174.4 (3)N29—C163—H16G109.5
O70—Na8—O32174.4 (3)N29—C163—H16H109.5
O71—Na8—O32104.3 (2)H16G—C163—H16H109.5
O72—Na8—O3292.7 (2)N29—C163—H16I109.5
O70B—Na8—O35109.0 (2)H16G—C163—H16I109.5
O70—Na8—O35109.0 (2)H16H—C163—H16I109.5
O71—Na8—O35108.4 (2)C206—O69B—Na7129 (5)
O72—Na8—O35162.0 (2)O69B—C206—N29B124 (3)
O32—Na8—O3569.9 (2)O69B—C206—H206118.1
O70B—Na8—O30112.8 (2)N29B—C206—H206118.1
O70—Na8—O30112.8 (2)C206—N29B—C208124 (3)
O71—Na8—O30165.3 (2)C206—N29B—C207121 (2)
O72—Na8—O30104.7 (2)C208—N29B—C207114 (2)
O32—Na8—O3061.8 (2)N29B—C207—H20M109.5
O35—Na8—O3063.61 (19)N29B—C207—H20N109.5
O70B—Na8—Al7137.1 (2)H20M—C207—H20N109.5
O70—Na8—Al7137.1 (2)N29B—C207—H20O109.5
O71—Na8—Al7129.02 (19)H20M—C207—H20O109.5
O72—Na8—Al7123.29 (19)H20N—C207—H20O109.5
O32—Na8—Al739.13 (14)N29B—C208—H20P109.5
O35—Na8—Al739.23 (14)N29B—C208—H20Q109.5
O30—Na8—Al737.00 (13)H20P—C208—H20Q109.5
O70B—Na8—Na951.80 (17)N29B—C208—H20R109.5
O70—Na8—Na951.80 (17)H20P—C208—H20R109.5
O71—Na8—Na948.90 (15)H20Q—C208—H20R109.5
O72—Na8—Na948.95 (15)C164—O70—Na8152.4 (9)
O32—Na8—Na9131.78 (19)C164—O70—Na9121.0 (8)
O35—Na8—Na9147.7 (2)Na8—O70—Na981.5 (2)
O30—Na8—Na9143.60 (19)O70—C164—N30126.7 (13)
Al7—Na8—Na9170.72 (14)O70—C164—H164116.6
O71—Na9—O7279.2 (2)N30—C164—H164116.6
O71—Na9—O45iii117.8 (2)C164—N30—C166123.6 (14)
O72—Na9—O45iii163.0 (2)C164—N30—C165121.1 (14)
O71—Na9—O73iii83.7 (2)C166—N30—C165115.2 (14)
O72—Na9—O73iii97.0 (2)N30—C165—H16J109.5
O45iii—Na9—O73iii85.2 (2)N30—C165—H16K109.5
O71—Na9—O53iii165.8 (2)H16J—C165—H16K109.5
O72—Na9—O53iii98.3 (2)N30—C165—H16L109.5
O45iii—Na9—O53iii65.41 (19)H16J—C165—H16L109.5
O73iii—Na9—O53iii110.5 (2)H16K—C165—H16L109.5
O71—Na9—O70B77.4 (2)N30—C166—H16M109.5
O72—Na9—O70B83.5 (2)N30—C166—H16N109.5
O45iii—Na9—O70B100.0 (2)H16M—C166—H16N109.5
O73iii—Na9—O70B160.6 (3)N30—C166—H16O109.5
O53iii—Na9—O70B88.5 (2)H16M—C166—H16O109.5
O71—Na9—O7077.4 (2)H16N—C166—H16O109.5
O72—Na9—O7083.5 (2)C209—O70B—Na8143.8 (19)
O45iii—Na9—O70100.0 (2)C209—O70B—Na9107.3 (13)
O73iii—Na9—O70160.6 (3)Na8—O70B—Na981.5 (2)
O53iii—Na9—O7088.5 (2)O70B—C209—N30B127 (2)
O71—Na9—C20982.1 (8)O70B—C209—Na950.1 (9)
O72—Na9—C209106.0 (5)N30B—C209—Na9175 (3)
O45iii—Na9—C20978.4 (5)O70B—C209—H209116.4
O73iii—Na9—C209150.0 (7)N30B—C209—H209116.4
O53iii—Na9—C20985.3 (8)Na9—C209—H20966.5
O70B—Na9—C20922.6 (5)C209—N30B—C211131 (2)
O71—Na9—Na848.60 (16)C209—N30B—C210116 (2)
O72—Na9—Na848.67 (15)C211—N30B—C210113 (2)
O45iii—Na9—Na8142.66 (19)N30B—C210—H21A109.5
O73iii—Na9—Na8120.81 (19)N30B—C210—H21B109.5
O53iii—Na9—Na8119.72 (18)H21A—C210—H21B109.5
O70B—Na9—Na846.74 (15)N30B—C210—H21C109.5
O70—Na9—Na846.74 (15)H21A—C210—H21C109.5
C209—Na9—Na866.0 (5)H21B—C210—H21C109.5
O71—Na9—Al12iii149.4 (2)N30B—C211—H21D109.5
O72—Na9—Al12iii131.08 (19)N30B—C211—H21E109.5
O45iii—Na9—Al12iii32.10 (13)H21D—C211—H21E109.5
O73iii—Na9—Al12iii94.91 (17)N30B—C211—H21F109.5
O53iii—Na9—Al12iii33.79 (13)H21D—C211—H21F109.5
O70—Na9—Al12iii99.33 (17)H21E—C211—H21F109.5
Na8—Na9—Al12iii144.23 (13)C167—O71—Na8142.7 (6)
O74—Na10—O59iv94.0 (4)C167—O71—Na9122.5 (5)
O74B—Na10—O75102 (2)Na8—O71—Na982.5 (2)
O74—Na10—O75108.4 (4)O71—C167—N31125.4 (8)
O59iv—Na10—O7582.5 (3)O71—C167—H167117.3
O74B—Na10—O5197.5 (19)N31—C167—H167117.3
O74—Na10—O5193.1 (4)C167—N31—C168120.5 (7)
O59iv—Na10—O51112.2 (3)C167—N31—C169123.0 (8)
O75—Na10—O51153.4 (3)C168—N31—C169116.4 (8)
O74B—Na10—O36144 (2)N31—C168—H16P109.5
O74—Na10—O36145.4 (4)N31—C168—H16Q109.5
O59iv—Na10—O36116.5 (2)H16P—C168—H16Q109.5
O75—Na10—O3692.2 (2)N31—C168—H16R109.5
O51—Na10—O3661.6 (2)H16P—C168—H16R109.5
O74B—Na10—O4481 (2)H16Q—C168—H16R109.5
O74—Na10—O4484.5 (4)N31—C169—H16S109.5
O59iv—Na10—O44177.2 (3)N31—C169—H16T109.5
O75—Na10—O44100.2 (2)H16S—C169—H16T109.5
O51—Na10—O4465.5 (2)N31—C169—H16U109.5
O36—Na10—O4464.23 (18)H16S—C169—H16U109.5
O74B—Na10—Al9107.9 (19)H16T—C169—H16U109.5
O74—Na10—Al9107.8 (4)C170—O72—Na8126.1 (5)
O59iv—Na10—Al9141.0 (2)C170—O72—Na9151.3 (5)
O75—Na10—Al9118.5 (2)Na8—O72—Na982.4 (2)
O51—Na10—Al937.00 (14)O72—C170—N32126.6 (8)
O36—Na10—Al937.86 (14)O72—C170—H170116.7
O44—Na10—Al938.00 (14)N32—C170—H170116.7
O74B—Na10—C17994 (2)C170—N32—C172122.4 (8)
O74—Na10—C179100.9 (5)C170—N32—C171120.8 (7)
O59iv—Na10—C179102.3 (3)C172—N32—C171116.8 (8)
O75—Na10—C17920.7 (3)N32—C171—H17A109.5
O51—Na10—C179141.6 (3)N32—C171—H17B109.5
O36—Na10—C17988.6 (3)H17A—C171—H17B109.5
O44—Na10—C17980.3 (3)N32—C171—H17C109.5
Al9—Na10—C179104.6 (3)H17A—C171—H17C109.5
O74B—Na10—C21218.5 (15)H17B—C171—H17C109.5
O59iv—Na10—C212108.3 (9)N32—C172—H17D109.5
O75—Na10—C212118.2 (11)N32—C172—H17E109.5
O51—Na10—C21279.4 (10)H17D—C172—H17E109.5
O36—Na10—C212128.5 (9)N32—C172—H17F109.5
O44—Na10—C21269.8 (9)H17D—C172—H17F109.5
Al9—Na10—C21290.9 (9)H17E—C172—H17F109.5
C179—Na10—C212105.7 (11)C173—O73—Na9i114.7 (5)
O74B—Na10—C11578.6 (19)O73—C173—N33127.0 (8)
O74—Na10—C11573.1 (4)O73—C173—H173116.5
O59iv—Na10—C115102.8 (3)N33—C173—H173116.5
O75—Na10—C115174.5 (3)C173—N33—C175121.7 (8)
O51—Na10—C11522.5 (2)C173—N33—C174121.2 (8)
O36—Na10—C11584.0 (2)C175—N33—C174116.3 (9)
O44—Na10—C11574.5 (2)N33—C174—H17G109.5
Al9—Na10—C11556.29 (16)N33—C174—H17H109.5
C179—Na10—C115154.5 (3)H17G—C174—H17H109.5
C212—Na10—C11561.9 (10)N33—C174—H17I109.5
O74—Na10—Na1iv106.3 (4)H17G—C174—H17I109.5
O59iv—Na10—Na1iv41.56 (19)H17H—C174—H17I109.5
O75—Na10—Na1iv41.02 (18)N33—C175—H17J109.5
O51—Na10—Na1iv146.96 (19)N33—C175—H17K109.5
O36—Na10—Na1iv107.34 (17)H17J—C175—H17K109.5
O44—Na10—Na1iv141.20 (19)N33—C175—H17L109.5
Al9—Na10—Na1iv145.02 (13)H17J—C175—H17L109.5
C179—Na10—Na1iv61.2 (2)H17K—C175—H17L109.5
C115—Na10—Na1iv144.20 (19)C176—O74—Na10148.3 (12)
N1—O1—Al6113.5 (4)O74—C176—N34125.7 (13)
N1—O1—Dy1110.2 (4)O74—C176—H176117.2
Al6—O1—Dy1120.2 (2)N34—C176—H176117.2
C1—O2—Al6113.6 (5)C176—N34—C177121.5 (11)
C1—O2—Na1146.4 (5)C176—N34—C178121.4 (11)
Al6—O2—Na187.2 (2)C177—N34—C178117.0 (11)
C3—O3—Al1133.2 (5)N34—C177—H17M109.5
C3—O3—Na2120.0 (5)N34—C177—H17N109.5
Al1—O3—Na2105.9 (3)H17M—C177—H17N109.5
N2—O4—Al1108.1 (4)N34—C177—H17O109.5
N2—O4—Dy1103.5 (4)H17M—C177—H17O109.5
Al1—O4—Dy199.7 (2)H17N—C177—H17O109.5
C8—O5—Al1110.5 (4)N34—C178—H17P109.5
C8—O5—Na2114.1 (4)N34—C178—H17Q109.5
Al1—O5—Na298.6 (2)H17P—C178—H17Q109.5
C10—O6—Al2132.7 (5)N34—C178—H17R109.5
C10—O6—Na5119.3 (4)H17P—C178—H17R109.5
Al2—O6—Na5102.9 (2)H17Q—C178—H17R109.5
N3—O7—Al1112.7 (4)C212—O74B—Na10126 (5)
N3—O7—Dy1125.1 (4)O74B—C212—N34B125 (4)
Al1—O7—Dy1103.3 (2)O74B—C212—Na1035 (4)
C15—O8—Al1113.1 (5)N34B—C212—Na10154 (3)
C17—O9—Al4130.5 (5)O74B—C212—H212117.7
N4—O10—Al2111.2 (4)N34B—C212—H212117.7
N4—O10—Dy1120.9 (4)Na10—C212—H21284.8
Al2—O10—Dy1103.7 (2)C212—N34B—C214122 (3)
C22—O11—Al2111.6 (5)C212—N34B—C213117 (3)
C24—O12—Al3132.7 (5)C214—N34B—C213114 (3)
N5—O13—Al2120.9 (4)N34B—C213—H21G109.5
N5—O13—Dy1117.9 (4)N34B—C213—H21H109.5
Al2—O13—Dy1101.2 (2)H21G—C213—H21H109.5
N5—O13—Na4104.5 (4)N34B—C213—H21I109.5
Al2—O13—Na4102.6 (2)H21G—C213—H21I109.5
Dy1—O13—Na4108.27 (19)H21H—C213—H21I109.5
C29—O14—Na4108.5 (5)N34B—C214—H21J109.5
C29—O14—Na5119.0 (5)N34B—C214—H21K109.5
Na4—O14—Na598.8 (2)H21J—C214—H21K109.5
C31—O15—Al4134.0 (5)N34B—C214—H21L109.5
N6—O16—Al5105.5 (4)H21J—C214—H21L109.5
N6—O16—Na4100.5 (4)H21K—C214—H21L109.5
Al5—O16—Na4143.8 (3)C179—O75—Na1iv143.5 (9)
N6—O16—Dy1102.5 (4)C179—O75—Na10116.1 (8)
Al5—O16—Dy194.8 (2)Na1iv—O75—Na1097.7 (3)
Na4—O16—Dy1103.83 (19)O75—C179—N35128.8 (14)
C36—O17—Al5110.0 (4)O75—C179—Na1043.3 (6)
C36—O17—Na3164.9 (5)N35—C179—Na10120.2 (11)
Al5—O17—Na385.0 (2)O75—C179—H179115.6
C38—O18—Al3129.1 (6)N35—C179—H179115.6
N7—O19—Al3113.1 (4)Na10—C179—H179105.1
N7—O19—Dy1116.7 (4)C179—N35—C181128.9 (14)
Al3—O19—Dy1125.3 (3)C179—N35—C180118.0 (12)
C43—O20—Al3114.6 (5)C181—N35—C180112.6 (13)
C45—O21—Al6136.3 (5)N35—C180—H18A109.5
C45—O21—Na1116.2 (5)N35—C180—H18B109.5
Al6—O21—Na192.3 (3)H18A—C180—H18B109.5
N8—O22—Al4111.6 (4)N35—C180—H18C109.5
N8—O22—Dy1115.6 (3)H18A—C180—H18C109.5
Al4—O22—Dy1132.0 (2)H18B—C180—H18C109.5
C50B—O23—Al4114.2 (5)N35—C181—H18D109.5
C50—O23—Al4114.2 (5)N35—C181—H18E109.5
C52—O24—Al5129.2 (9)H18D—C181—H18E109.5
C52B—O24—Al5130.0 (11)N35—C181—H18F109.5
C52—O24—Na3112.0 (11)H18D—C181—H18F109.5
C52B—O24—Na3118.7 (13)H18E—C181—H18F109.5
Al5—O24—Na386.3 (2)O76—C182—N36117 (3)
N9—O25—Al5113.6 (4)O76—C182—H182121.7
N9—O25—Dy1120.2 (4)N36—C182—H182121.7
Al5—O25—Dy1111.3 (2)C182—N36—C183124 (2)
C57—O26—Al5112.3 (5)C182—N36—C184127 (2)
C57—O26—Na3138.7 (5)C183—N36—C184106.1 (19)
Al5—O26—Na386.2 (2)N36—C183—H18G109.5
C59—O27—Al6126.2 (6)N36—C183—H18H109.5
C59—O27—Na1109.5 (5)H18G—C183—H18H109.5
Al6—O27—Na185.2 (2)N36—C183—H18I109.5
N10—O28—Al8111.1 (4)H18G—C183—H18I109.5
N10—O28—Dy2116.3 (4)H18H—C183—H18I109.5
Al8—O28—Dy2132.5 (2)N36—C184—H18J109.5
C64—O29—Al8113.7 (5)N36—C184—H18K109.5
C66—O30—Al7127.1 (5)H18J—C184—H18K109.5
C66—O30—Na8112.7 (5)N36—C184—H18L109.5
Al7—O30—Na885.5 (2)H18J—C184—H18L109.5
N11—O31—Al7105.7 (4)H18K—C184—H18L109.5
N11—O31—Na7115.1 (4)O76B—C215—N36B131.8 (14)
Al7—O31—Na7133.5 (3)O76B—C215—H215114.1
N11—O31—Dy2101.1 (4)N36B—C215—H215114.1
Al7—O31—Dy294.4 (2)C215—N36B—C217130.2 (13)
Na7—O31—Dy298.55 (18)C215—N36B—C216117.2 (12)
C71—O32—Al7110.2 (5)C217—N36B—C216110.9 (12)
C71—O32—Na8161.0 (5)N36B—C216—H21P109.5
Al7—O32—Na888.0 (2)N36B—C216—H21Q109.5
C73—O33—Al10129.5 (6)H21P—C216—H21Q109.5
N12—O34—Al7113.4 (4)N36B—C216—H21R109.5
N12—O34—Dy2121.1 (4)H21P—C216—H21R109.5
Al7—O34—Dy2111.7 (2)H21Q—C216—H21R109.5
C78—O35—Al7112.3 (5)N36B—C217—H21M109.5
C78—O35—Na8136.7 (5)N36B—C217—H21N109.5
Al7—O35—Na887.0 (2)H21M—C217—H21N109.5
C80—O36—Al9125.0 (5)N36B—C217—H21O109.5
C80—O36—Na10106.4 (5)H21M—C217—H21O109.5
Al9—O36—Na1086.7 (2)H21N—C217—H21O109.5
N13—O37—Al12113.2 (4)O77—C185—N37130.9 (18)
N13—O37—Dy2125.8 (4)O77—C185—H185114.6
Al12—O37—Dy2102.6 (2)N37—C185—H185114.6
C85—O38—Al12113.8 (5)C185—N37—C187121.2 (14)
C87—O39—Al8133.5 (5)C185—N37—C186114.9 (14)
N14—O40—Al11114.1 (4)C187—N37—C186123.6 (16)
N14—O40—Na7101.7 (4)N37—C186—H18M109.5
Al11—O40—Na7112.7 (2)N37—C186—H18N109.5
N14—O40—Dy2116.2 (4)H18M—C186—H18N109.5
Al11—O40—Dy2101.3 (2)N37—C186—H18O109.5
Na7—O40—Dy2111.2 (2)H18M—C186—H18O109.5
C92—O41—Na6134.2 (5)H18N—C186—H18O109.5
C92—O41—Na797.5 (5)N37—C187—H18P109.5
Na6—O41—Na796.1 (2)N37—C187—H18Q109.5
C94—O42—Al8153.9 (6)H18P—C187—H18Q109.5
N15—O43—Al9113.8 (4)N37—C187—H18R109.5
N15—O43—Dy2110.1 (4)H18P—C187—H18R109.5
Al9—O43—Dy2121.0 (3)H18Q—C187—H18R109.5
C99—O44—Al9113.2 (5)O78—C188—N38125.7 (10)
C99—O44—Na10148.0 (5)O78—C188—H188117.2
Al9—O44—Na1085.8 (2)N38—C188—H188117.2
C101—O45—Al12132.6 (5)C188—N38—C190121.2 (8)
C101—O45—Na9i121.7 (5)C188—N38—C189121.0 (9)
Al12—O45—Na9i104.5 (3)C190—N38—C189117.8 (9)
N16—O46—Al11111.3 (4)N38—C189—H18S109.5
N16—O46—Dy2122.3 (4)N38—C189—H18T109.5
Al11—O46—Dy2104.8 (2)H18S—C189—H18T109.5
C106—O47—Al11112.2 (5)N38—C189—H18U109.5
C108—O48—Al10132.8 (5)H18S—C189—H18U109.5
N17—O49—Al10112.9 (4)H18T—C189—H18U109.5
N17—O49—Dy2117.5 (4)N38—C190—H19A109.5
Al10—O49—Dy2126.7 (3)N38—C190—H19B109.5
C113—O50—Al10114.1 (5)H19A—C190—H19B109.5
C115—O51—Al9136.6 (5)N38—C190—H19C109.5
C115—O51—Na10112.5 (5)H19A—C190—H19C109.5
Al9—O51—Na1091.4 (2)H19B—C190—H19C109.5
N18—O52—Al12110.1 (4)O79—C191—N39125 (2)
N18—O52—Dy2105.0 (3)O79—C191—H191117.5
Al12—O52—Dy299.9 (2)N39—C191—H191117.5
C120—O53—Al12110.0 (4)C191—N39—C193126.6 (16)
C120—O53—Na9i113.3 (4)C191—N39—C192118.2 (16)
Al12—O53—Na9i100.7 (2)C193—N39—C192115.0 (15)
C122—O54—Al11131.5 (5)N39—C192—H19D109.5
C122—O54—Na6119.2 (4)N39—C192—H19E109.5
Al11—O54—Na6101.0 (2)H19D—C192—H19E109.5
C127—O55—Na4100.1 (5)N39—C192—H19F109.5
C127—O55—Na6143.1 (6)H19D—C192—H19F109.5
Na4—O55—Na699.9 (2)H19E—C192—H19F109.5
C127—O56—Al2132.9 (5)N39—C193—H19G109.5
C127—O56—Na5125.1 (5)N39—C193—H19H109.5
Al2—O56—Na5101.9 (2)H19G—C193—H19H109.5
C127—O56—Na484.1 (4)N39—C193—H19I109.5
Al2—O56—Na497.6 (2)H19G—C193—H19I109.5
Na5—O56—Na492.3 (2)H19H—C193—H19I109.5
C129—O57—Na5122.9 (5)O80—C194—N40126 (2)
C129—O57—Na7101.9 (5)O80—C194—H194117.0
Na5—O57—Na7135.1 (3)N40—C194—H194117.0
C129—O58—Al11132.6 (5)C194—N40—C196118.4 (16)
C129—O58—Na6119.0 (5)C194—N40—C195119.2 (18)
Al11—O58—Na6108.2 (2)C196—N40—C195120.3 (15)
C129—O58—Na781.0 (5)N40—C195—H19J109.5
Al11—O58—Na797.1 (2)N40—C195—H19K109.5
Na6—O58—Na788.5 (2)H19J—C195—H19K109.5
C1—N1—O1110.9 (6)N40—C195—H19L109.5
C1—N1—Al1132.2 (5)H19J—C195—H19L109.5
O1—N1—Al1116.9 (4)H19K—C195—H19L109.5
C8—N2—O4112.5 (6)N40—C196—H19M109.5
C8—N2—Al2129.4 (5)N40—C196—H19N109.5
O4—N2—Al2117.1 (4)H19M—C196—H19N109.5
C15—N3—O7110.2 (6)N40—C196—H19O109.5
C15—N3—Al4133.0 (5)H19M—C196—H19O109.5
O7—N3—Al4116.5 (4)H19N—C196—H19O109.5
C22—N4—O10112.2 (6)O81—C197—N41122 (3)
C22—N4—Al3132.2 (5)O81—C197—H197119.2
O10—N4—Al3115.6 (4)N41—C197—H197119.2
C29—N5—O13118.1 (6)C197—N41—C199125 (2)
C29—N5—H5N127 (6)C197—N41—C198119 (2)
O13—N5—H5N111 (6)C199—N41—C198116 (2)
C36—N6—O16117.9 (6)N41—C198—H19P109.5
C36—N6—Na4145.8 (5)N41—C198—H19Q109.5
O16—N6—Na452.1 (3)H19P—C198—H19Q109.5
C36—N6—H6N123 (6)N41—C198—H19R109.5
O16—N6—H6N119 (6)H19P—C198—H19R109.5
Na4—N6—H6N79 (7)H19Q—C198—H19R109.5
C43—N7—O19109.8 (6)N41—C199—H19S109.5
C43—N7—Al6129.8 (6)N41—C199—H19T109.5
O19—N7—Al6120.5 (4)H19S—C199—H19T109.5
C50B—N8—O22112.3 (6)N41—C199—H19U109.5
C50—N8—O22112.3 (6)H19S—C199—H19U109.5
C50B—N8—Al5128.6 (5)H19T—C199—H19U109.5
C50—N8—Al5128.6 (5)O82—C200—N42131 (2)
O22—N8—Al5117.3 (4)O82—C200—H200114.4
C57—N9—O25112.5 (7)N42—C200—H200114.4
C57—N9—Al6131.3 (6)C200—N42—C202123.3 (17)
O25—N9—Al6116.2 (4)C200—N42—C201123.6 (17)
C64—N10—O28112.5 (6)C202—N42—C201112.8 (15)
C64—N10—Al7128.3 (6)N42—C201—H20D109.5
O28—N10—Al7118.0 (4)N42—C201—H20E109.5
C71—N11—O31117.6 (6)H20D—C201—H20E109.5
C71—N11—H11N128 (6)N42—C201—H20F109.5
O31—N11—H11N110 (6)H20D—C201—H20F109.5
C78—N12—O34113.2 (6)H20E—C201—H20F109.5
C78—N12—Al9130.1 (6)N42—C202—H20A109.5
O34—N12—Al9116.7 (4)N42—C202—H20B109.5
C85—N13—O37110.7 (6)H20A—C202—H20B109.5
C85—N13—Al8132.0 (5)N42—C202—H20C109.5
O37—N13—Al8117.3 (4)H20A—C202—H20C109.5
C92—N14—O40121.9 (6)H20B—C202—H20C109.5
C92—N14—Na777.7 (4)O82B—C221—N42B133 (3)
O40—N14—Na751.1 (3)O82B—C221—H221113.6
C92—N14—H14N110 (6)N42B—C221—H221113.6
O40—N14—H14N126 (6)C221—N42B—C223128 (2)
Na7—N14—H14N139 (6)C221—N42B—C222120 (2)
C99—N15—O43110.5 (6)C223—N42B—C222111.6 (18)
C99—N15—Al12131.5 (5)N42B—C222—H22D109.5
O43—N15—Al12118.0 (4)N42B—C222—H22E109.5
C106—N16—O46111.5 (6)H22D—C222—H22E109.5
C106—N16—Al10132.3 (5)N42B—C222—H22F109.5
O46—N16—Al10116.1 (4)H22D—C222—H22F109.5
C113—N17—O49109.8 (6)H22E—C222—H22F109.5
C113—N17—Al9129.7 (5)N42B—C223—H22G109.5
O49—N17—Al9120.4 (4)N42B—C223—H22H109.5
C120—N18—O52110.8 (6)H22G—C223—H22H109.5
C120—N18—Al11128.3 (5)N42B—C223—H22I109.5
O52—N18—Al11118.3 (4)H22G—C223—H22I109.5
O2—C1—N1119.9 (7)H22H—C223—H22I109.5
O27—Al6—O1—N195.5 (4)Al4—O15—C31—C30112.2 (8)
O2—Al6—O1—N15.5 (4)C35—C30—C31—O15175.1 (7)
N9—Al6—O1—N1179.6 (5)C29—C30—C31—O1513.9 (12)
N7—Al6—O1—N191.3 (4)C35—C30—C31—C324.3 (12)
Na1—Al6—O1—N138.1 (5)C29—C30—C31—C32166.6 (8)
O27—Al6—O1—Dy1131.0 (3)O15—C31—C32—C33175.7 (9)
O2—Al6—O1—Dy1139.0 (3)C30—C31—C32—C333.8 (14)
N9—Al6—O1—Dy146.1 (3)C31—C32—C33—C340.8 (17)
N7—Al6—O1—Dy142.2 (3)C32—C33—C34—C351.6 (18)
Na1—Al6—O1—Dy1171.63 (16)C33—C34—C35—C301.0 (16)
O21—Al6—O2—C1169.1 (5)C31—C30—C35—C341.9 (13)
O27—Al6—O2—C1105.7 (5)C29—C30—C35—C34169.6 (8)
O1—Al6—O2—C14.7 (5)Al5—O17—C36—N620.2 (9)
N9—Al6—O2—C124.3 (13)Na3—O17—C36—N6164.5 (16)
N7—Al6—O2—C182.4 (5)Al5—O17—C36—C37158.2 (6)
Na1—Al6—O2—C1152.8 (6)Na3—O17—C36—C3717 (3)
O21—Al6—O2—Na138.1 (2)O16—N6—C36—O173.9 (11)
O27—Al6—O2—Na147.1 (2)Na4—N6—C36—O1758.8 (12)
O1—Al6—O2—Na1148.0 (2)O16—N6—C36—C37174.5 (7)
N9—Al6—O2—Na1128.5 (10)Na4—N6—C36—C37122.7 (9)
N7—Al6—O2—Na1124.9 (2)O17—C36—C37—C38155.4 (8)
O8—Al1—O3—C382.5 (8)N6—C36—C37—C3822.9 (13)
O5—Al1—O3—C3179.0 (8)O17—C36—C37—C4221.0 (13)
O4—Al1—O3—C3100.4 (8)N6—C36—C37—C42160.6 (9)
N1—Al1—O3—C314.2 (8)Al3—O18—C38—C37102.5 (10)
Na2—Al1—O3—C3169.2 (9)Al3—O18—C38—C3975.1 (10)
Dy1—Al1—O3—C360.3 (9)C42—C37—C38—O18179.9 (9)
O8—Al1—O3—Na2108.3 (3)C36—C37—C38—O183.5 (14)
O5—Al1—O3—Na211.9 (3)C42—C37—C38—C392.4 (14)
O4—Al1—O3—Na268.7 (3)C36—C37—C38—C39174.1 (9)
N1—Al1—O3—Na2154.9 (3)O18—C38—C39—C40179.7 (10)
Dy1—Al1—O3—Na2108.9 (3)C37—C38—C39—C402.7 (16)
O11—Al2—O6—C1094.9 (7)C38—C39—C40—C411.1 (19)
O56—Al2—O6—C10172.8 (6)C39—C40—C41—C421 (2)
O13—Al2—O6—C1080.8 (7)C40—C41—C42—C371.2 (19)
N2—Al2—O6—C104.8 (7)C38—C37—C42—C410.5 (16)
Dy1—Al2—O6—C1047.0 (7)C36—C37—C42—C41176.1 (10)
Na5—Al2—O6—C10153.2 (7)Al3—O20—C43—N71.6 (11)
Na4—Al2—O6—C10126.7 (6)Al3—O20—C43—C44179.3 (6)
O11—Al2—O6—Na5111.8 (2)O19—N7—C43—O200.2 (10)
O56—Al2—O6—Na519.6 (2)Al6—N7—C43—O20179.8 (6)
O13—Al2—O6—Na572.4 (3)O19—N7—C43—C44179.3 (7)
N2—Al2—O6—Na5158.0 (2)Al6—N7—C43—C441.1 (12)
Dy1—Al2—O6—Na5106.2 (2)O20—C43—C44—C490.0 (13)
Na4—Al2—O6—Na526.5 (2)N7—C43—C44—C49179.1 (9)
O3—Al1—O8—C15168.2 (5)O20—C43—C44—C45179.1 (8)
O5—Al1—O8—C15102.9 (5)N7—C43—C44—C451.8 (13)
O7—Al1—O8—C159.2 (5)Al6—O21—C45—C444.4 (14)
O4—Al1—O8—C1519.7 (10)Na1—O21—C45—C44129.8 (8)
N1—Al1—O8—C1579.9 (5)Al6—O21—C45—C46175.8 (6)
Na2—Al1—O8—C15150.1 (5)Na1—O21—C45—C4650.4 (9)
Dy1—Al1—O8—C1514.7 (6)C49—C44—C45—O21178.5 (9)
O15—Al4—O9—C1774.4 (8)C43—C44—C45—O210.6 (14)
O23—Al4—O9—C17177.5 (7)C49—C44—C45—C461.4 (13)
O22—Al4—O9—C1799.8 (8)C43—C44—C45—C46179.5 (8)
N3—Al4—O9—C1718.3 (7)O21—C45—C46—C47178.8 (9)
O6—Al2—O11—C22175.9 (5)C44—C45—C46—C471.4 (14)
O56—Al2—O11—C2296.9 (5)C45—C46—C47—C481.8 (17)
O10—Al2—O11—C225.9 (5)C46—C47—C48—C490.5 (18)
O13—Al2—O11—C227.4 (10)C45—C44—C49—C483.6 (15)
N2—Al2—O11—C2286.0 (5)C43—C44—C49—C48177.2 (10)
Dy1—Al2—O11—C2224.1 (5)C47—C48—C49—C443.2 (17)
Na5—Al2—O11—C22138.1 (5)Al4—O23—C50—N80.0 (10)
Na4—Al2—O11—C2262.5 (6)Al4—O23—C50—C51177.0 (9)
O18—Al3—O12—C2487.3 (8)O22—N8—C50—O230.3 (10)
O20—Al3—O12—C24173.1 (8)Al5—N8—C50—O23164.3 (6)
O19—Al3—O12—C2491.0 (8)O22—N8—C50—C51176.8 (9)
N4—Al3—O12—C246.8 (8)Al5—N8—C50—C5112.8 (12)
O9—Al4—O15—C3196.9 (7)O23—C50—C51—C561.6 (16)
O23—Al4—O15—C310.6 (7)N8—C50—C51—C56175.4 (14)
O22—Al4—O15—C3186.9 (7)O23—C50—C51—C52179.3 (12)
N3—Al4—O15—C31172.1 (6)N8—C50—C51—C523.7 (15)
O12—Al3—O18—C38101.8 (7)Al5—O24—C52—C5121 (3)
O20—Al3—O18—C385.9 (7)Na3—O24—C52—C51125.3 (15)
O19—Al3—O18—C3879.6 (7)Al5—O24—C52—C53157.8 (14)
N4—Al3—O18—C38166.5 (7)Na3—O24—C52—C5354 (2)
O12—Al3—O19—N787.8 (5)C56—C51—C52—O24178.8 (19)
O18—Al3—O19—N793.8 (5)C50—C51—C52—O240 (2)
O20—Al3—O19—N71.6 (5)C56—C51—C52—C530 (2)
N4—Al3—O19—N7174.1 (5)C50—C51—C52—C53179.5 (16)
O12—Al3—O19—Dy1118.0 (4)O24—C52—C53—C54177.9 (19)
O18—Al3—O19—Dy160.4 (4)C51—C52—C53—C543 (3)
O20—Al3—O19—Dy1155.8 (4)C52—C53—C54—C554 (3)
N4—Al3—O19—Dy131.7 (3)C53—C54—C55—C561 (3)
O12—Al3—O20—C43132.3 (6)C54—C55—C56—C512 (3)
O18—Al3—O20—C43111.4 (6)C52—C51—C56—C553 (3)
O19—Al3—O20—C431.8 (6)C50—C51—C56—C55177.7 (16)
N4—Al3—O20—C4335.0 (16)Al4—O23—C50B—N80.0 (10)
O27—Al6—O21—C45176.1 (8)Al4—O23—C50B—C51B175.1 (9)
O2—Al6—O21—C4592.3 (8)O22—N8—C50B—O230.3 (10)
N9—Al6—O21—C4591.2 (8)Al5—N8—C50B—O23164.3 (6)
N7—Al6—O21—C454.0 (8)O22—N8—C50B—C51B175.3 (10)
Na1—Al6—O21—C45132.9 (9)Al5—N8—C50B—C51B20.7 (13)
O27—Al6—O21—Na150.9 (2)O23—C50B—C51B—C56B0.7 (18)
O2—Al6—O21—Na140.6 (2)N8—C50B—C51B—C56B174.2 (16)
N9—Al6—O21—Na1135.8 (2)O23—C50B—C51B—C52B179.8 (14)
N7—Al6—O21—Na1137.0 (3)N8—C50B—C51B—C52B4.9 (16)
O15—Al4—O22—N899.3 (5)Al5—O24—C52B—C53B168.5 (16)
O9—Al4—O22—N886.4 (6)Na3—O24—C52B—C53B57 (3)
O23—Al4—O22—N80.3 (5)Al5—O24—C52B—C51B11 (3)
N3—Al4—O22—N8169.7 (5)Na3—O24—C52B—C51B122.1 (19)
O15—Al4—O22—Dy170.2 (4)C56B—C51B—C52B—O24180 (2)
O9—Al4—O22—Dy1104.2 (5)C50B—C51B—C52B—O241 (3)
O23—Al4—O22—Dy1169.8 (4)C56B—C51B—C52B—C53B1 (3)
N3—Al4—O22—Dy120.8 (4)C50B—C51B—C52B—C53B179.9 (19)
O15—Al4—O23—C50B105.9 (6)O24—C52B—C53B—C54B180 (2)
O9—Al4—O23—C50B141.2 (6)C51B—C52B—C53B—C54B1 (3)
O22—Al4—O23—C50B0.2 (6)C52B—C53B—C54B—C55B2 (4)
N3—Al4—O23—C50B41.6 (14)C53B—C54B—C55B—C56B3 (4)
O15—Al4—O23—C50105.9 (6)C54B—C55B—C56B—C51B3 (4)
O9—Al4—O23—C50141.2 (6)C52B—C51B—C56B—C55B2 (3)
O22—Al4—O23—C500.2 (6)C50B—C51B—C56B—C55B178.6 (19)
N3—Al4—O23—C5041.6 (14)O25—N9—C57—O264.5 (10)
O17—Al5—O24—C52164.5 (15)Al6—N9—C57—O26177.2 (5)
O26—Al5—O24—C5270.8 (15)O25—N9—C57—C58173.3 (7)
O16—Al5—O24—C52114.2 (15)Al6—N9—C57—C585.0 (11)
N8—Al5—O24—C5227.8 (15)Al5—O26—C57—N910.5 (9)
Na3—Al5—O24—C52115.5 (15)Na3—O26—C57—N9100.7 (8)
Dy1—Al5—O24—C5270.1 (16)Al5—O26—C57—C58167.2 (6)
O17—Al5—O24—C52B174.0 (19)Na3—O26—C57—C5881.6 (10)
O26—Al5—O24—C52B80.3 (19)N9—C57—C58—C63166.8 (10)
O16—Al5—O24—C52B104.7 (19)O26—C57—C58—C6315.5 (14)
N8—Al5—O24—C52B18.3 (19)N9—C57—C58—C5918.0 (13)
Na3—Al5—O24—C52B125.0 (19)O26—C57—C58—C59159.7 (8)
Dy1—Al5—O24—C52B60.6 (19)Al6—O27—C59—C60151.0 (7)
O17—Al5—O24—Na348.9 (2)Na1—O27—C59—C6052.5 (9)
O26—Al5—O24—Na344.8 (2)Al6—O27—C59—C5831.0 (11)
O16—Al5—O24—Na3130.3 (2)Na1—O27—C59—C58129.5 (7)
N8—Al5—O24—Na3143.3 (2)C63—C58—C59—O27179.2 (10)
Dy1—Al5—O24—Na3174.4 (3)C57—C58—C59—O275.7 (13)
O17—Al5—O25—N9100.7 (4)C63—C58—C59—C602.8 (14)
O26—Al5—O25—N97.3 (4)C57—C58—C59—C60172.3 (8)
O16—Al5—O25—N9177.1 (4)O27—C59—C60—C61179.1 (10)
N8—Al5—O25—N990.9 (4)C58—C59—C60—C611.0 (15)
Na3—Al5—O25—N949.2 (5)C59—C60—C61—C623 (2)
Dy1—Al5—O25—N9139.5 (5)C60—C61—C62—C635 (2)
O17—Al5—O25—Dy1119.8 (3)C61—C62—C63—C583 (2)
O26—Al5—O25—Dy1146.7 (3)C59—C58—C63—C621 (2)
O16—Al5—O25—Dy137.7 (2)C57—C58—C63—C62174.2 (12)
N8—Al5—O25—Dy148.5 (3)Al8—O29—C64—N105.0 (10)
Na3—Al5—O25—Dy1171.34 (15)Al8—O29—C64—C65177.7 (7)
O21—Al6—O27—C5965.2 (6)O28—N10—C64—O292.1 (11)
O2—Al6—O27—C59155.7 (6)Al7—N10—C64—O29164.9 (6)
O1—Al6—O27—C59122.5 (6)O28—N10—C64—C65179.5 (7)
N9—Al6—O27—C5939.3 (6)Al7—N10—C64—C6512.5 (12)
N7—Al6—O27—C5921.0 (17)O29—C64—C65—C66175.5 (8)
Na1—Al6—O27—C59110.6 (7)N10—C64—C65—C667.2 (14)
O21—Al6—O27—Na145.5 (2)O29—C64—C65—C703.2 (14)
O2—Al6—O27—Na145.1 (2)N10—C64—C65—C70174.2 (9)
O1—Al6—O27—Na1126.9 (2)Al7—O30—C66—C6522.4 (12)
N9—Al6—O27—Na1149.9 (2)Na8—O30—C66—C65124.5 (8)
N7—Al6—O27—Na189.7 (14)Al7—O30—C66—C67158.0 (7)
O42—Al8—O29—C64102.9 (6)Na8—O30—C66—C6755.9 (10)
O39—Al8—O29—C64146.8 (6)C70—C65—C66—O30178.5 (9)
O28—Al8—O29—C644.4 (6)C64—C65—C66—O302.8 (15)
N13—Al8—O29—C6459.7 (10)C70—C65—C66—C671.9 (15)
O32—Al7—O30—C66162.7 (7)C64—C65—C66—C67176.7 (9)
O35—Al7—O30—C6669.3 (7)O30—C66—C67—C68179.6 (10)
N10—Al7—O30—C6630.6 (7)C65—C66—C67—C680.0 (16)
O31—Al7—O30—C66117.3 (7)C66—C67—C68—C692.4 (19)
Na8—Al7—O30—C66115.2 (7)C67—C68—C69—C703 (2)
Dy2—Al7—O30—C6673.7 (8)C68—C69—C70—C651 (2)
O32—Al7—O30—Na847.5 (2)C66—C65—C70—C691.5 (17)
O35—Al7—O30—Na845.8 (2)C64—C65—C70—C69177.1 (11)
N10—Al7—O30—Na8145.7 (3)Al7—O32—C71—N1122.7 (9)
O31—Al7—O30—Na8127.5 (2)Na8—O32—C71—N11174.6 (12)
Dy2—Al7—O30—Na8171.2 (3)Al7—O32—C71—C72157.8 (6)
O48—Al10—O33—C73100.9 (7)Na8—O32—C71—C725 (2)
O50—Al10—O33—C735.7 (7)O31—N11—C71—O324.6 (11)
O49—Al10—O33—C7381.7 (7)O31—N11—C71—C72175.9 (7)
N16—Al10—O33—C73168.0 (7)O32—C71—C72—C73154.5 (8)
O32—Al7—O34—N12100.8 (4)N11—C71—C72—C7326.0 (13)
O35—Al7—O34—N128.0 (4)O32—C71—C72—C7717.8 (12)
N10—Al7—O34—N1291.6 (5)N11—C71—C72—C77161.7 (9)
O31—Al7—O34—N12178.0 (4)Al10—O33—C73—C72106.6 (9)
Na8—Al7—O34—N1250.9 (4)Al10—O33—C73—C7476.5 (11)
Dy2—Al7—O34—N12141.0 (5)C77—C72—C73—O33177.8 (9)
O32—Al7—O34—Dy2118.2 (3)C71—C72—C73—O335.8 (13)
O35—Al7—O34—Dy2149.0 (3)C77—C72—C73—C745.2 (14)
N10—Al7—O34—Dy249.4 (3)C71—C72—C73—C74177.2 (9)
O31—Al7—O34—Dy237.0 (2)O33—C73—C74—C75179.2 (11)
Na8—Al7—O34—Dy2168.15 (15)C72—C73—C74—C752.2 (16)
O51—Al9—O36—C8062.1 (6)C73—C74—C75—C762 (2)
O44—Al9—O36—C80153.9 (6)C74—C75—C76—C773 (2)
O43—Al9—O36—C80124.2 (6)C75—C76—C77—C720.3 (19)
N12—Al9—O36—C8041.5 (6)C73—C72—C77—C764.4 (16)
N17—Al9—O36—C8021.4 (17)C71—C72—C77—C76176.6 (10)
Na10—Al9—O36—C80107.7 (6)O34—N12—C78—O353.7 (9)
O51—Al9—O36—Na1045.6 (2)Al9—N12—C78—O35178.2 (5)
O44—Al9—O36—Na1046.2 (2)O34—N12—C78—C79173.5 (6)
O43—Al9—O36—Na10128.1 (2)Al9—N12—C78—C794.5 (11)
N12—Al9—O36—Na10149.2 (2)Al7—O35—C78—N1210.3 (8)
N17—Al9—O36—Na1086.3 (14)Na8—O35—C78—N12100.4 (8)
O45—Al12—O38—C85170.8 (5)Al7—O35—C78—C79166.8 (6)
O53—Al12—O38—C85100.6 (5)Na8—O35—C78—C7982.5 (9)
O37—Al12—O38—C857.6 (5)N12—C78—C79—C84164.9 (9)
O52—Al12—O38—C8513.9 (10)O35—C78—C79—C8417.9 (13)
N15—Al12—O38—C8582.3 (5)N12—C78—C79—C8020.0 (12)
Na9i—Al12—O38—C85146.4 (5)O35—C78—C79—C80157.1 (7)
Dy2—Al12—O38—C8517.7 (6)Al9—O36—C80—C81149.0 (6)
O42—Al8—O39—C8797.1 (8)Na10—O36—C80—C8151.5 (8)
O29—Al8—O39—C87163.4 (8)Al9—O36—C80—C7932.5 (11)
O28—Al8—O39—C8785.9 (9)Na10—O36—C80—C79130.1 (7)
N13—Al8—O39—C877.2 (8)C84—C79—C80—O36178.5 (9)
O39—Al8—O42—C9460.6 (13)C78—C79—C80—O366.4 (12)
O29—Al8—O42—C94153.4 (12)C84—C79—C80—C813.0 (13)
O28—Al8—O42—C94121.4 (12)C78—C79—C80—C81172.0 (8)
N13—Al8—O42—C9433.7 (13)O36—C80—C81—C82177.7 (9)
O36—Al9—O43—N1595.5 (4)C79—C80—C81—C823.8 (14)
O44—Al9—O43—N155.7 (4)C80—C81—C82—C832.6 (18)
N12—Al9—O43—N15179.9 (5)C81—C82—C83—C840 (2)
N17—Al9—O43—N1590.9 (4)C80—C79—C84—C831.0 (17)
Na10—Al9—O43—N1540.5 (5)C78—C79—C84—C83174.1 (11)
O36—Al9—O43—Dy2130.0 (3)C82—C83—C84—C790 (2)
O44—Al9—O43—Dy2140.2 (3)Al12—O38—C85—N136.0 (9)
N12—Al9—O43—Dy245.5 (3)Al12—O38—C85—C86174.2 (5)
N17—Al9—O43—Dy243.7 (3)O37—N13—C85—O380.8 (9)
Na10—Al9—O43—Dy2175.04 (16)Al8—N13—C85—O38179.1 (5)
O51—Al9—O44—C99167.0 (5)O37—N13—C85—C86179.0 (6)
O36—Al9—O44—C99107.6 (5)Al8—N13—C85—C860.6 (11)
O43—Al9—O44—C996.3 (5)O38—C85—C86—C912.5 (11)
N12—Al9—O44—C9927.9 (12)N13—C85—C86—C91177.2 (7)
N17—Al9—O44—C9980.7 (5)O38—C85—C86—C87177.2 (7)
Na10—Al9—O44—C99153.3 (6)N13—C85—C86—C873.0 (11)
O51—Al9—O44—Na1039.7 (2)Al8—O39—C87—C865.9 (14)
O36—Al9—O44—Na1045.7 (2)Al8—O39—C87—C88175.1 (7)
O43—Al9—O44—Na10147.1 (2)C91—C86—C87—O39179.5 (8)
N12—Al9—O44—Na10125.4 (9)C85—C86—C87—O390.8 (13)
N17—Al9—O44—Na10126.0 (2)C91—C86—C87—C881.5 (12)
O38—Al12—O45—C10186.5 (8)C85—C86—C87—C88178.2 (8)
O53—Al12—O45—C101176.5 (8)O39—C87—C88—C89179.4 (9)
O52—Al12—O45—C10195.3 (8)C86—C87—C88—C891.6 (14)
N15—Al12—O45—C1019.7 (8)C87—C88—C89—C900.1 (16)
Na9i—Al12—O45—C101167.3 (9)C88—C89—C90—C911.5 (15)
Dy2—Al12—O45—C10154.8 (8)C87—C86—C91—C900.0 (13)
O38—Al12—O45—Na9i106.2 (3)C85—C86—C91—C90179.7 (8)
O53—Al12—O45—Na9i9.2 (3)C89—C90—C91—C861.5 (14)
O52—Al12—O45—Na9i72.0 (3)Na6—O41—C92—N1464.3 (11)
N15—Al12—O45—Na9i157.5 (3)Na7—O41—C92—N1441.7 (8)
Dy2—Al12—O45—Na9i112.5 (3)Na6—O41—C92—C93114.5 (8)
O54—Al11—O47—C106173.3 (5)Na7—O41—C92—C93139.5 (7)
O58—Al11—O47—C10699.3 (5)Na6—O41—C92—Na7106.0 (6)
O46—Al11—O47—C1067.8 (5)O40—N14—C92—O418.7 (12)
O40—Al11—O47—C1064.1 (10)Na7—N14—C92—O4135.5 (7)
N18—Al11—O47—C10682.9 (5)O40—N14—C92—C93172.4 (6)
Dy2—Al11—O47—C10619.8 (5)Na7—N14—C92—C93145.6 (6)
Na6—Al11—O47—C106138.9 (4)O40—N14—C92—Na726.8 (6)
Na7—Al11—O47—C10668.5 (6)O41—C92—C93—C9847.6 (11)
O33—Al10—O48—C10890.1 (8)N14—C92—C93—C98131.3 (8)
O50—Al10—O48—C108166.3 (8)Na7—C92—C93—C98128.9 (9)
O49—Al10—O48—C10886.4 (9)O41—C92—C93—C94131.2 (9)
N16—Al10—O48—C1082.8 (8)N14—C92—C93—C9449.9 (10)
O48—Al10—O49—N1783.9 (6)Na7—C92—C93—C9450.0 (14)
O33—Al10—O49—N1799.6 (5)Al8—O42—C94—C9572.6 (16)
O50—Al10—O49—N171.3 (5)Al8—O42—C94—C93111.6 (13)
N16—Al10—O49—N17169.2 (5)C98—C93—C94—O42177.0 (8)
O48—Al10—O49—Dy2115.9 (4)C92—C93—C94—O421.9 (12)
O33—Al10—O49—Dy260.6 (4)C98—C93—C94—C951.0 (13)
O50—Al10—O49—Dy2161.4 (4)C92—C93—C94—C95177.8 (8)
N16—Al10—O49—Dy230.6 (3)O42—C94—C95—C96179.0 (11)
O48—Al10—O50—C113138.9 (6)C93—C94—C95—C963.0 (16)
O33—Al10—O50—C113108.6 (6)C94—C95—C96—C973 (2)
O49—Al10—O50—C1131.3 (6)C95—C96—C97—C982 (2)
N16—Al10—O50—C11348.6 (13)C96—C97—C98—C930.3 (18)
O36—Al9—O51—C115174.3 (8)C94—C93—C98—C970.6 (15)
O44—Al9—O51—C11583.0 (8)C92—C93—C98—C97179.4 (10)
N12—Al9—O51—C115101.1 (8)Al9—O44—C99—N156.0 (9)
N17—Al9—O51—C11513.1 (8)Na10—O44—C99—N15116.3 (9)
Na10—Al9—O51—C115125.6 (8)Al9—O44—C99—C100174.8 (6)
O36—Al9—O51—Na1048.7 (2)Na10—O44—C99—C10062.9 (12)
O44—Al9—O51—Na1042.6 (2)O43—N15—C99—O441.3 (9)
N12—Al9—O51—Na10133.3 (2)Al12—N15—C99—O44179.0 (5)
N17—Al9—O51—Na10138.7 (2)O43—N15—C99—C100179.6 (6)
O45—Al12—O53—C120128.8 (5)Al12—N15—C99—C1001.8 (11)
O38—Al12—O53—C120137.4 (5)O44—C99—C100—C1052.8 (12)
O37—Al12—O53—C12056.2 (5)N15—C99—C100—C105176.3 (8)
O52—Al12—O53—C12021.2 (5)O44—C99—C100—C101175.5 (8)
N15—Al12—O53—C12054.8 (12)N15—C99—C100—C1015.3 (12)
Na9i—Al12—O53—C120119.9 (5)Al12—O45—C101—C102171.1 (7)
Dy2—Al12—O53—C12015.0 (5)Na9i—O45—C101—C10223.4 (12)
O45—Al12—O53—Na9i8.9 (2)Al12—O45—C101—C1009.2 (14)
O38—Al12—O53—Na9i102.7 (2)Na9i—O45—C101—C100156.2 (7)
O37—Al12—O53—Na9i176.1 (2)C105—C100—C101—O45178.7 (9)
O52—Al12—O53—Na9i98.7 (2)C99—C100—C101—O450.4 (14)
N15—Al12—O53—Na9i65.0 (11)C105—C100—C101—C1021.0 (15)
Dy2—Al12—O53—Na9i134.89 (15)C99—C100—C101—C102179.3 (9)
O47—Al11—O54—C122102.4 (6)O45—C101—C102—C103178.2 (12)
O58—Al11—O54—C122161.6 (6)C100—C101—C102—C1031.5 (18)
O40—Al11—O54—C12273.8 (6)C101—C102—C103—C1040 (2)
N18—Al11—O54—C12210.4 (6)C102—C103—C104—C1052 (2)
Dy2—Al11—O54—C12240.5 (7)C103—C104—C105—C1002 (2)
Na6—Al11—O54—C122146.7 (7)C101—C100—C105—C1040.8 (17)
Na7—Al11—O54—C122112.0 (6)C99—C100—C105—C104177.5 (11)
O47—Al11—O54—Na6110.8 (2)Al11—O47—C106—N166.2 (9)
O58—Al11—O54—Na614.9 (2)Al11—O47—C106—C107177.1 (5)
O40—Al11—O54—Na673.0 (2)O46—N16—C106—O470.6 (9)
N18—Al11—O54—Na6157.1 (2)Al10—N16—C106—O47178.6 (5)
Dy2—Al11—O54—Na6106.2 (2)O46—N16—C106—C107176.2 (6)
Na7—Al11—O54—Na634.7 (2)Al10—N16—C106—C1071.9 (11)
O54—Al11—O58—C129167.9 (8)O47—C106—C107—C1120.7 (11)
O47—Al11—O58—C12971.5 (8)N16—C106—C107—C112176.2 (7)
O46—Al11—O58—C12911.7 (8)O47—C106—C107—C108178.2 (7)
O40—Al11—O58—C12988.9 (7)N16—C106—C107—C1081.4 (11)
Dy2—Al11—O58—C12950.2 (8)Al10—O48—C108—C109174.1 (7)
Na6—Al11—O58—C129175.0 (9)Al10—O48—C108—C1073.9 (13)
Na7—Al11—O58—C12984.2 (7)C112—C107—C108—O48178.8 (8)
O54—Al11—O58—Na617.1 (3)C106—C107—C108—O481.3 (13)
O47—Al11—O58—Na6113.5 (3)C112—C107—C108—C1090.8 (12)
O46—Al11—O58—Na6163.3 (3)C106—C107—C108—C109176.7 (8)
O40—Al11—O58—Na686.1 (3)O48—C108—C109—C110178.9 (9)
Dy2—Al11—O58—Na6124.81 (19)C107—C108—C109—C1100.8 (13)
Na7—Al11—O58—Na690.8 (3)C108—C109—C110—C1111.1 (15)
O54—Al11—O58—Na7107.8 (2)C109—C110—C111—C1121.2 (14)
O47—Al11—O58—Na7155.8 (2)C110—C111—C112—C1071.2 (13)
O46—Al11—O58—Na772.5 (2)C108—C107—C112—C1111.0 (13)
O40—Al11—O58—Na74.6 (2)C106—C107—C112—C111176.6 (8)
Dy2—Al11—O58—Na734.0 (2)O49—N17—C113—O500.1 (10)
Na6—Al11—O58—Na790.8 (3)Al9—N17—C113—O50178.2 (5)
Al6—O1—N1—C15.3 (7)O49—N17—C113—C114178.8 (7)
Dy1—O1—N1—C1143.4 (5)Al9—N17—C113—C1143.1 (11)
Al6—O1—N1—Al1174.2 (3)Al10—O50—C113—N171.1 (10)
Dy1—O1—N1—Al136.1 (5)Al10—O50—C113—C114179.9 (6)
Al1—O4—N2—C818.6 (6)N17—C113—C114—C119172.9 (8)
Dy1—O4—N2—C8123.8 (5)O50—C113—C114—C1195.8 (12)
Al1—O4—N2—Al2150.9 (3)N17—C113—C114—C1158.8 (12)
Dy1—O4—N2—Al245.8 (4)O50—C113—C114—C115172.5 (7)
Al1—O7—N3—C1510.6 (7)Al9—O51—C115—C116170.4 (6)
Dy1—O7—N3—C15137.3 (5)Na10—O51—C115—C11652.0 (9)
Al1—O7—N3—Al4174.8 (3)Al9—O51—C115—C11411.2 (13)
Dy1—O7—N3—Al448.1 (6)Na10—O51—C115—C114129.6 (7)
Al2—O10—N4—C226.4 (7)Al9—O51—C115—Na10118.4 (8)
Dy1—O10—N4—C22128.4 (5)C119—C114—C115—O51179.0 (8)
Al2—O10—N4—Al3174.1 (3)C113—C114—C115—O512.7 (12)
Dy1—O10—N4—Al352.2 (6)C119—C114—C115—C1162.6 (12)
Al2—O13—N5—C2998.9 (6)C113—C114—C115—C116175.8 (8)
Dy1—O13—N5—C29136.0 (5)C119—C114—C115—Na10121.0 (9)
Na4—O13—N5—C2915.8 (7)C113—C114—C115—Na1060.7 (12)
Al5—O16—N6—C3613.8 (8)O51—C115—C116—C117177.6 (8)
Na4—O16—N6—C36140.7 (6)C114—C115—C116—C1173.8 (13)
Dy1—O16—N6—C36112.5 (6)Na10—C115—C116—C117143.7 (9)
Al5—O16—N6—Na4154.5 (4)C115—C116—C117—C1181.6 (15)
Dy1—O16—N6—Na4106.8 (3)C116—C117—C118—C1192.0 (16)
Al3—O19—N7—C431.2 (7)C115—C114—C119—C1180.9 (14)
Dy1—O19—N7—C43157.8 (5)C113—C114—C119—C118179.3 (9)
Al3—O19—N7—Al6178.4 (3)C117—C118—C119—C1143.3 (15)
Dy1—O19—N7—Al621.8 (6)Al12—O53—C120—N1819.2 (8)
Al4—O22—N8—C50B0.4 (7)Na9i—O53—C120—N1892.7 (7)
Dy1—O22—N8—C50B171.8 (5)Al12—O53—C120—C121159.5 (5)
Al4—O22—N8—C500.4 (7)Na9i—O53—C120—C12188.6 (7)
Dy1—O22—N8—C50171.8 (5)O52—N18—C120—O532.5 (9)
Al4—O22—N8—Al5166.4 (3)Al11—N18—C120—O53164.0 (5)
Dy1—O22—N8—Al522.3 (6)O52—N18—C120—C121176.2 (6)
Al5—O25—N9—C573.9 (7)Al11—N18—C120—C12114.7 (10)
Dy1—O25—N9—C57139.4 (5)O53—C120—C121—C122174.3 (6)
Al5—O25—N9—Al6174.7 (3)N18—C120—C121—C1224.4 (11)
Dy1—O25—N9—Al639.2 (6)O53—C120—C121—C1262.5 (10)
Al8—O28—N10—C641.6 (8)N18—C120—C121—C126178.7 (7)
Dy2—O28—N10—C64178.7 (5)Al11—O54—C122—C1214.9 (11)
Al8—O28—N10—Al7170.1 (3)Na6—O54—C122—C121146.8 (6)
Dy2—O28—N10—Al712.8 (6)Al11—O54—C122—C123173.4 (5)
Al7—O31—N11—C7114.9 (8)Na6—O54—C122—C12331.4 (8)
Na7—O31—N11—C71142.3 (6)C126—C121—C122—O54175.6 (7)
Dy2—O31—N11—C71112.7 (6)C120—C121—C122—O541.1 (11)
Al7—O34—N12—C784.8 (7)C126—C121—C122—C1232.5 (11)
Dy2—O34—N12—C78141.8 (5)C120—C121—C122—C123179.3 (7)
Al7—O34—N12—Al9173.5 (3)O54—C122—C123—C124175.2 (7)
Dy2—O34—N12—Al936.5 (6)C121—C122—C123—C1243.1 (11)
Al12—O37—N13—C857.1 (7)C122—C123—C124—C1251.7 (13)
Dy2—O37—N13—C85134.1 (5)C123—C124—C125—C1260.5 (14)
Al12—O37—N13—Al8174.3 (3)C124—C125—C126—C1211.1 (13)
Dy2—O37—N13—Al847.3 (6)C122—C121—C126—C1250.5 (12)
Al11—O40—N14—C9287.1 (7)C120—C121—C126—C125177.4 (7)
Na7—O40—N14—C9234.5 (7)Na4—O55—C127—O569.3 (9)
Dy2—O40—N14—C92155.4 (6)Na6—O55—C127—O56112.5 (9)
Al11—O40—N14—Na7121.6 (4)Na4—O55—C127—C128173.4 (7)
Dy2—O40—N14—Na7121.0 (4)Na6—O55—C127—C12864.8 (12)
Al9—O43—N15—C994.1 (7)Na6—O55—C127—Na4121.8 (9)
Dy2—O43—N15—C99143.5 (5)Al2—O56—C127—O55102.9 (9)
Al9—O43—N15—Al12174.0 (3)Na5—O56—C127—O5580.5 (9)
Dy2—O43—N15—Al1234.6 (5)Na4—O56—C127—O558.1 (8)
Al11—O46—N16—C1066.9 (7)Al2—O56—C127—C12879.7 (10)
Dy2—O46—N16—C106131.6 (5)Na5—O56—C127—C12896.8 (9)
Al11—O46—N16—Al10174.7 (3)Na4—O56—C127—C128174.6 (8)
Dy2—O46—N16—Al1050.0 (6)Al2—O56—C127—Na494.8 (6)
Al10—O49—N17—C1131.0 (7)Na5—O56—C127—Na488.6 (4)
Dy2—O49—N17—C113163.1 (5)Na5—O57—C129—O58149.1 (6)
Al10—O49—N17—Al9177.3 (3)Na7—O57—C129—O5827.6 (8)
Dy2—O49—N17—Al915.2 (6)Na5—O57—C129—C13030.9 (10)
Al12—O52—N18—C12015.3 (6)Na7—O57—C129—C130152.4 (7)
Dy2—O52—N18—C120122.0 (5)Na5—O57—C129—Na7176.7 (6)
Al12—O52—N18—Al11148.3 (3)Al11—O58—C129—O57114.2 (8)
Dy2—O52—N18—Al1141.6 (5)Na6—O58—C129—O5760.4 (9)
Al6—O2—C1—N13.1 (9)Na7—O58—C129—O5722.8 (7)
Na1—O2—C1—N1121.2 (8)Al11—O58—C129—C13065.8 (10)
Al6—O2—C1—C2177.1 (6)Na6—O58—C129—C130119.6 (7)
Na1—O2—C1—C258.6 (12)Na7—O58—C129—C130157.2 (7)
O1—N1—C1—O21.5 (10)Al11—O58—C129—Na791.4 (6)
Al1—N1—C1—O2177.9 (5)Na6—O58—C129—Na783.2 (4)
O1—N1—C1—C2178.4 (7)Na10ii—O59—C131—N19109.0 (18)
Al1—N1—C1—C22.2 (12)Na1—O59—C131—N1996.1 (17)
O2—C1—C2—C3173.9 (8)O59—C131—N19—C133171.9 (16)
N1—C1—C2—C36.3 (13)O59—C131—N19—C1327 (3)
O2—C1—C2—C73.2 (13)Na1—O60—C134—N20177.9 (13)
N1—C1—C2—C7176.7 (8)O60—C134—N20—C136175.0 (17)
Al1—O3—C3—C4165.6 (7)O60—C134—N20—C1359 (3)
Na2—O3—C3—C426.5 (11)Na1—O60B—C224—N20B130 (7)
Al1—O3—C3—C214.4 (13)O60B—C224—N20B—C226132 (10)
Na2—O3—C3—C2153.5 (7)O60B—C224—N20B—C22535 (14)
C7—C2—C3—O3175.9 (9)Na2—O61—C137—N21125.6 (9)
C1—C2—C3—O31.1 (14)O61—C137—N21—C1384.3 (17)
C7—C2—C3—C44.1 (14)O61—C137—N21—C139175.1 (10)
C1—C2—C3—C4178.9 (9)Na3iii—O62—C140—N2254.3 (19)
O3—C3—C4—C5177.3 (11)Na2—O62—C140—N22178.2 (9)
C2—C3—C4—C52.7 (17)O62—C140—N22—C1419 (2)
C3—C4—C5—C61 (2)O62—C140—N22—C142179.4 (13)
C4—C5—C6—C73 (2)Na3iii—O63—C143—N23163.2 (11)
C5—C6—C7—C22.0 (19)Na2—O63—C143—N2331 (3)
C3—C2—C7—C61.7 (16)O63—C143—N23—C1442 (2)
C1—C2—C7—C6178.9 (10)O63—C143—N23—C145171.6 (14)
Al1—O5—C8—N220.0 (8)Na3iii—O63B—C203—N23B15 (10)
Na2—O5—C8—N290.1 (7)Na2—O63B—C203—N23B176 (4)
Al1—O5—C8—C9158.2 (5)Na3iii—O63B—C203—Na2170 (8)
Na2—O5—C8—C991.7 (7)O63B—C203—N23B—C205177 (5)
O4—N2—C8—O50.5 (9)Na2—C203—N23B—C205171 (9)
Al2—N2—C8—O5168.4 (5)O63B—C203—N23B—C20416 (8)
O4—N2—C8—C9177.8 (6)Na2—C203—N23B—C2044 (18)
Al2—N2—C8—C99.8 (10)Na3iii—O64—C146—N2437 (9)
O5—C8—C9—C145.0 (10)Na2—O64—C146—N24174.5 (16)
N2—C8—C9—C14176.8 (7)O64—C146—N24—C1473 (4)
O5—C8—C9—C10174.1 (7)O64—C146—N24—C148176 (3)
N2—C8—C9—C104.2 (11)Na3iii—O64B—C230—N24B54 (15)
Al2—O6—C10—C11178.5 (5)Na2—O64B—C230—N24B173 (3)
Na5—O6—C10—C1128.8 (8)O64B—C230—N24B—C232159 (7)
Al2—O6—C10—C91.7 (11)O64B—C230—N24B—C2317 (8)
Na5—O6—C10—C9151.5 (6)Na4—O65—C149—N256 (2)
C14—C9—C10—O6178.9 (7)Na6—O65—C149—N25170.1 (9)
C8—C9—C10—O60.1 (11)O65—C149—N25—C151174.4 (12)
C14—C9—C10—C111.4 (11)O65—C149—N25—C1500.2 (18)
C8—C9—C10—C11179.6 (7)Na5—O66—C152—N2686.2 (14)
O6—C10—C11—C12178.7 (7)O66—C152—N26—C1532.3 (18)
C9—C10—C11—C121.6 (11)O66—C152—N26—C154179.8 (12)
C10—C11—C12—C131.0 (13)Na5—O67—C155—N27128.9 (10)
C11—C12—C13—C140.2 (14)O67—C155—N27—C1561.3 (18)
C12—C13—C14—C90.0 (14)O67—C155—N27—C157178.1 (12)
C10—C9—C14—C130.6 (12)Na6—O68—C158—N2845.2 (16)
C8—C9—C14—C13179.7 (8)O68—C158—N28—C160173.0 (11)
Al1—O8—C15—N35.9 (9)O68—C158—N28—C1592.8 (17)
Al1—O8—C15—C16177.2 (6)Na7—O69—C161—N29159.7 (13)
O7—N3—C15—O83.1 (9)O69—C161—N29—C163176.4 (16)
Al4—N3—C15—O8176.6 (5)O69—C161—N29—C16210 (3)
O7—N3—C15—C16173.8 (6)Na7—O69B—C206—N29B121 (7)
Al4—N3—C15—C160.3 (11)O69B—C206—N29B—C208179 (7)
O8—C15—C16—C214.6 (11)O69B—C206—N29B—C20711 (12)
N3—C15—C16—C21172.3 (7)Na8—O70—C164—N3046 (3)
O8—C15—C16—C17177.7 (7)Na9—O70—C164—N30173.0 (15)
N3—C15—C16—C175.4 (11)O70—C164—N30—C166179 (2)
Al4—O9—C17—C1618.4 (12)O70—C164—N30—C1655 (3)
Al4—O9—C17—C18163.0 (7)Na8—O70B—C209—N30B86 (5)
C21—C16—C17—O9179.4 (8)Na9—O70B—C209—N30B175 (4)
C15—C16—C17—O93.0 (13)Na8—O70B—C209—Na999 (2)
C21—C16—C17—C180.8 (12)O70B—C209—N30B—C211173 (4)
C15—C16—C17—C18178.4 (8)O70B—C209—N30B—C2105 (7)
O9—C17—C18—C19180.0 (9)Na8—O71—C167—N3146.8 (16)
C16—C17—C18—C191.3 (14)Na9—O71—C167—N31172.4 (8)
C17—C18—C19—C200.4 (16)O71—C167—N31—C1684.5 (17)
C18—C19—C20—C211.2 (16)O71—C167—N31—C169179.5 (11)
C19—C20—C21—C161.7 (14)Na8—O72—C170—N32158.6 (7)
C17—C16—C21—C200.7 (13)Na9—O72—C170—N3229 (2)
C15—C16—C21—C20177.0 (8)O72—C170—N32—C172175.8 (10)
Al2—O11—C22—N44.0 (9)O72—C170—N32—C1712.4 (15)
Al2—O11—C22—C23177.9 (5)Na9i—O73—C173—N33131.2 (9)
O10—N4—C22—O111.7 (10)O73—C173—N33—C175173.7 (10)
Al3—N4—C22—O11178.9 (5)O73—C173—N33—C1744.0 (18)
O10—N4—C22—C23176.4 (6)Na10—O74—C176—N34123 (2)
Al3—N4—C22—C233.0 (11)O74—C176—N34—C1772 (2)
O11—C22—C23—C286.8 (12)O74—C176—N34—C178178.0 (15)
N4—C22—C23—C28171.3 (8)Na10—O74B—C212—N34B156 (5)
O11—C22—C23—C24175.0 (7)O74B—C212—N34B—C214178 (7)
N4—C22—C23—C246.9 (12)Na10—C212—N34B—C214146 (7)
Al3—O12—C24—C234.7 (14)O74B—C212—N34B—C21328 (10)
Al3—O12—C24—C25173.0 (7)Na10—C212—N34B—C2133 (12)
C28—C23—C24—O12174.7 (9)Na1iv—O75—C179—N35109.2 (19)
C22—C23—C24—O123.5 (13)Na10—O75—C179—N3595.0 (17)
C28—C23—C24—C253.0 (13)Na1iv—O75—C179—Na10155.8 (17)
C22—C23—C24—C25178.8 (8)O75—C179—N35—C181171.9 (15)
O12—C24—C25—C26174.5 (9)Na10—C179—N35—C181119.7 (16)
C23—C24—C25—C263.4 (14)O75—C179—N35—C1801 (3)
C24—C25—C26—C271.5 (16)Na10—C179—N35—C18051.4 (18)
C25—C26—C27—C281.0 (16)O76—C182—N36—C18328 (5)
C26—C27—C28—C231.3 (15)O76—C182—N36—C184173 (3)
C24—C23—C28—C270.7 (14)O76B—C215—N36B—C217167 (7)
C22—C23—C28—C27178.9 (9)O76B—C215—N36B—C2164 (7)
Na4—O14—C29—N546.9 (8)O77—C185—N37—C187176.2 (18)
Na5—O14—C29—N564.8 (8)O77—C185—N37—C1862 (3)
Na4—O14—C29—C30131.8 (6)O78—C188—N38—C190176.6 (13)
Na5—O14—C29—C30116.5 (6)O78—C188—N38—C1890 (2)
Na5—O14—C29—Na4111.7 (5)O79—C191—N39—C193172.1 (19)
O13—N5—C29—O1420.0 (10)O79—C191—N39—C1923 (3)
O13—N5—C29—C30158.7 (6)O80—C194—N40—C19620 (4)
O13—N5—C29—Na412.9 (5)O80—C194—N40—C195176 (2)
O14—C29—C30—C31156.4 (7)O81—C197—N41—C199157 (3)
N5—C29—C30—C3122.3 (11)O81—C197—N41—C19827 (5)
Na4—C29—C30—C3195.7 (9)O82—C200—N42—C20216 (5)
O14—C29—C30—C3514.7 (11)O82—C200—N42—C201170 (3)
N5—C29—C30—C35166.6 (7)O82B—C221—N42B—C22317 (11)
Na4—C29—C30—C3575.4 (10)O82B—C221—N42B—C222173 (6)
Al4—O15—C31—C3268.4 (10)
Symmetry codes: (i) x, y1, z; (ii) x+1, y, z; (iii) x, y+1, z; (iv) x1, y, z.
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
N5—H5N···O70.89 (3)2.36 (7)3.059 (8)136 (7)
N6—H6N···O100.87 (3)2.46 (8)3.004 (9)121 (7)
N11—H11N···O460.87 (3)2.27 (6)3.003 (8)142 (8)
N14—H14N···O370.89 (3)2.22 (8)2.795 (8)122 (7)
C4—H4···O620.952.643.477 (11)147
C60—H60···O74ii0.952.553.287 (19)135
C81—H81···O60iv0.952.593.293 (12)131
C123—H123···O680.952.483.333 (11)150
C128—H12C···O69B0.982.393.14 (5)133
C130—H13B···O140.982.403.251 (10)145
C137—H137···O40.952.363.221 (10)151
C139—H13T···O190.982.533.459 (13)159
C140—H140···O610.952.413.137 (11)134
C144—H14I···O610.982.653.599 (15)164
C153—H15G···O110.982.603.450 (13)146
C157—H15P···O77v0.982.353.241 (19)150
C159—H15S···O78vi0.982.383.332 (14)165
C159—H15U···O410.982.513.486 (13)175
C162—H16F···O290.982.603.343 (15)132
C163—H16G···O48vi0.982.573.540 (14)170
C168—H16P···O510.982.633.388 (12)135
C169—H16T···O80v0.982.653.55 (2)153
C171—H17C···O73iii0.982.423.360 (12)161
C172—H17E···O660.982.613.518 (14)154
C173—H173···O520.952.373.254 (9)154
C175—H17J···O490.982.583.434 (13)146
C183—H18H···O90.982.643.60 (3)166
C183—H18H···O230.982.433.15 (3)130
C184—H18K···O90.982.643.56 (2)156
C191—H191···O77vii0.952.643.48 (3)148
C199—H19T···O290.982.523.50 (4)179
C199—H19U···O360.982.593.39 (3)139
C201—H20D···O150.982.503.30 (3)139
C204—H20G···O68iii0.982.263.21 (5)163
C223—H22G···O150.982.423.25 (5)142
Symmetry codes: (ii) x+1, y, z; (iii) x, y+1, z; (iv) x1, y, z; (v) x, y+1, z+1/2; (vi) x, y, z1/2; (vii) x, y, z+1/2.
Average bond length (Å) and bond-valence-sum (BVS) values (v.u.) used to support assigned oxidation states of the dysprosium and aluminum ions of 1 and 2 top
Avg. bond lengthBVS valueAssigned oxidation state
1
Dy12.4203.023+
Al11.8363.093+
Al21.9003.083+
Al31.9263.083+
Al41.9073.003+
Al51.9112.963+
Al61.8413.033+
2
Dy12.4263.003+
Dy22.4312.963+
Al11.9122.973+
Al21.9092.983+
Al31.8453.013+
Al41.8403.053+
Al51.9112.993+
Al61.9193.143+
Al71.9132.983+
Al81.8512.973+
Al91.9243093+
Al101.8423.033+
Al111.9073.003+
Al121.9102.973+
Continuous shapes measures (CShM) values for the geometry about the nine-coordinate central DyIII ions of 1 and 2 top
Shape12
Dy1Dy1Dy2
Enneagon (D9h)35.90235.89436.224
Octagonal pyramid (C8v)22.49422.50122.625
Heptagonal bipyramid (D7h)18.19818.19918.434
Johnson triangular cupola (J3; C3v)14.83215.04715.010
Capped cube (J8; C4v)10.81410.76710.982
Spherical-relaxed capped cube (C4v)8.8948.8259.098
Capped square antiprism (J10; C4v)2.2792.4162.331
Spherical capped square antiprism (C4v)1.2121.3051.225
Tricapped trigonal prism (J51; D3h)3.3263.6943.656
Spherical tricapped trigonal prism (D3h)1.3701.6401.521
Tridiminished icosahedron (J63 ; C3v)10.37810.35810.232
Hula-hoop (C2v)11.63011.64911.491
Muffin (Cs)1.7281.8131.803
Continuous shapes measures (CShM) values for the geometry about the five-coordinate AlIII ions of 1 and 2 top
ShapePentagon (D5h)Vacant octahedron (C4v)Trigonal bipyramid (D3h)Spherical square pyramid (C4v)Johnson trigonal bipyramid (J12; D3h)
1
Al130.9163.2991.5331.8803.644
Al632.8033.5601.2201.7973.677
2
Al333.4144.0860.8742.3253.263
Al432.0432.3152.1091.1684.370
Al831.5482.1023.1840.5405.340
Al1031.6152.9121.7591.3244.191
Continuous shapes measures (CShM) values for the geometry about the six-coordinate AlIII ions of 1 and 2 top
ShapeHexagon (D6h)Pentagonal pyramid (C5v)Octahedron (Oh)Trigonal prism (D3h)Johnson pentagonal pyramid (J2; C5v)
1
Al232.36222.3061.59610.84326.394
Al332.25222.6781.7878.76826.344
Al431.29721.6401.61910.46025.730
Al533.21225.0690.88013.27428.854
2
Al131.85822.3381.53210.50026.606
Al233.00624.1751.02713.22627.967
Al532.22122.4541.56910.49326.647
Al632.09923.1351.30510.05127.495
Al732.15721.8441.7489.96526.103
Al932.12123.4091.30910.12627.310
Al1132.40324.8021.02712.11628.736
Al1232.11022.2521.54710.72626.505
Continuous shapes measures (CShM) values for the geometry about the five-coordinate Na+ ions of 1 and 2 top
ShapePentagon (D5h)Vacant octahedron (C4v)Trigonal bipyramid (D3h)Spherical square pyramid (C4v)Johnson trigonal bipyramid (J12; D3h)
1
Na428.5095.8664.7992.7268.418
2
Na424.4365.8084.1934.2926.350
Na732.0748.1613.5984.7285.923
Continuous shapes measures (CShM) values for the geometry about the six-coordinate Na+ ions of 1 and 2 top
ShapeHexagon (D6h)Pentagonal pyramid (C5v)Octahedron (Oh)Trigonal prism (D3h)Johnson pentagonal pyramid (J2; C5v)
1
Na123.74317.6924.01710.79920.480
Na228.60525.1903.86410.42028.150
Na326.94126.9704.05414.90030.159
Na527.27023.7392.42814.50129.956
2
Na128.01522.0844.60813.47223.950
Na223.34717.4924.08911.50120.119
Na326.76727.2193.89014.54230.261
Na531.84118.3293.67610.22821.995
Na627.10721.2242.93212.61125.625
Na825.74726.5644.28014.09929.546
Na924.00217.1204.07410.66819.939
Na1027.06121.9104.75913.31623.861
 

Funding information

Funding for this research was provided by: Shippensburg University Foundation Undergraduate Research Fund (grant to C. M. Zaleski); Faculty Professional Development Council, Pennsylvania State System of Higher Education (grant to C. M. Zaleski); National Science Foundation (grant No. DMR 1337296 to M. Zeller; grant No. CHE 0087210 to M. Zeller); Ohio Board of Regents (grant No. CAP-491 to M. Zeller); Youngstown State University (award to M. Zeller).

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