Supporting information
Crystallographic Information File (CIF) https://doi.org/10.1107/S0108270108028539/sq3163sup1.cif | |
Structure factor file (CIF format) https://doi.org/10.1107/S0108270108028539/sq3163Isup2.hkl |
CCDC reference: 707198
For related literature, see: Batten & Robson (1998); Eddaoudi et al. (2001); Hagrman et al. (1999); Hu et al. (2006); Noveron et al. (2002); Wang et al. (2005); Wei et al. (2005); Yang et al. (2008); Zhang et al. (2007).
A mixture of CdCl2.2.5H2O (0.114 g, 0.5 mmol), 1,4-H2ndc (0.110 g, 0.5 mmol) and L (0.123 g, 0.5 mmol) was dissolved in distilled water (12 ml), followed by addition of triethylamine until the pH of the system was about 5.7. The resulting solution was stirred for about 1 h at room temperature, sealed in a 23 ml Teflon-lined stainless steel autoclave and heated at 458 K for 2 d under autogenous pressure. Afterwards, the reaction system was cooled slowly to room temperature. Pale-yellow block crystals of (I) suitable for single-crystal X-ray diffraction analysis were collected from the final reaction system by filtration, washed several times with distilled water and dried in air at ambient temperature (yield 33% based on CdII).
All H atoms were positioned geometrically (C—H = 0.93 Å) and refined as riding, with Uiso(H) = 1.2Ueq(carrier).
Data collection: PROCESS-AUTO (Rigaku, 1998); cell refinement: PROCESS-AUTO (Rigaku, 1998); data reduction: PROCESS-AUTO (Rigaku, 1998); program(s) used to solve structure: SHELXS97 (Sheldrick, 2008); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008); molecular graphics: SHELXTL-Plus (Sheldrick, 2008); software used to prepare material for publication: SHELXL97 (Sheldrick, 2008).
[Cd2(C14H8N4)2(C12H6O4)2] | F(000) = 2224 |
Mr = 1117.62 | Dx = 1.678 Mg m−3 |
Monoclinic, P21/c | Mo Kα radiation, λ = 0.71073 Å |
Hall symbol: -P 2ybc | Cell parameters from 32808 reflections |
a = 10.162 (2) Å | θ = 3.0–27.5° |
b = 18.040 (4) Å | µ = 1.03 mm−1 |
c = 24.160 (5) Å | T = 293 K |
β = 92.78 (3)° | Block, pale yellow |
V = 4423.9 (15) Å3 | 0.31 × 0.29 × 0.24 mm |
Z = 4 |
Rigaku R-AXIS RAPID diffractometer | 10059 independent reflections |
Radiation source: rotating anode | 7470 reflections with I > 2σ(I) |
Graphite monochromator | Rint = 0.044 |
Detector resolution: 10.0 pixels mm-1 | θmax = 27.5°, θmin = 3.0° |
ω scans | h = −13→13 |
Absorption correction: multi-scan (ABSCOR; Higashi, 1995) | k = −23→23 |
Tmin = 0.721, Tmax = 0.784 | l = −31→28 |
41917 measured reflections |
Refinement on F2 | Primary atom site location: structure-invariant direct methods |
Least-squares matrix: full | Secondary atom site location: difference Fourier map |
R[F2 > 2σ(F2)] = 0.038 | Hydrogen site location: inferred from neighbouring sites |
wR(F2) = 0.086 | H-atom parameters constrained |
S = 1.05 | w = 1/[σ2(Fo2) + (0.0387P)2 + 1.5094P] where P = (Fo2 + 2Fc2)/3 |
10059 reflections | (Δ/σ)max = 0.001 |
631 parameters | Δρmax = 0.55 e Å−3 |
42 restraints | Δρmin = −0.42 e Å−3 |
[Cd2(C14H8N4)2(C12H6O4)2] | V = 4423.9 (15) Å3 |
Mr = 1117.62 | Z = 4 |
Monoclinic, P21/c | Mo Kα radiation |
a = 10.162 (2) Å | µ = 1.03 mm−1 |
b = 18.040 (4) Å | T = 293 K |
c = 24.160 (5) Å | 0.31 × 0.29 × 0.24 mm |
β = 92.78 (3)° |
Rigaku R-AXIS RAPID diffractometer | 10059 independent reflections |
Absorption correction: multi-scan (ABSCOR; Higashi, 1995) | 7470 reflections with I > 2σ(I) |
Tmin = 0.721, Tmax = 0.784 | Rint = 0.044 |
41917 measured reflections |
R[F2 > 2σ(F2)] = 0.038 | 42 restraints |
wR(F2) = 0.086 | H-atom parameters constrained |
S = 1.05 | Δρmax = 0.55 e Å−3 |
10059 reflections | Δρmin = −0.42 e Å−3 |
631 parameters |
Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes. |
Refinement. Refinement of F2 against ALL reflections. The weighted R-factor wR and goodness of fit S are based on F2, conventional R-factors R are based on F, with F set to zero for negative F2. The threshold expression of F2 > σ(F2) is used only for calculating R-factors(gt) etc. and is not relevant to the choice of reflections for refinement. R-factors based on F2 are statistically about twice as large as those based on F, and R- factors based on ALL data will be even larger. |
x | y | z | Uiso*/Ueq | ||
C1 | −0.1817 (3) | 0.2785 (2) | 0.10967 (12) | 0.0445 (8) | |
C2 | −0.0414 (3) | 0.30369 (17) | 0.10833 (12) | 0.0398 (7) | |
C3 | 0.0363 (3) | 0.27313 (19) | 0.06958 (14) | 0.0484 (8) | |
H3 | 0.0018 | 0.2366 | 0.0459 | 0.058* | |
C4 | 0.1674 (3) | 0.2963 (2) | 0.06519 (13) | 0.0471 (8) | |
H4 | 0.2192 | 0.2742 | 0.0391 | 0.057* | |
C5 | 0.2201 (3) | 0.35097 (18) | 0.09874 (12) | 0.0414 (7) | |
C6 | 0.3547 (3) | 0.3810 (2) | 0.08698 (12) | 0.0460 (8) | |
C7 | 0.1453 (3) | 0.38070 (18) | 0.14205 (12) | 0.0410 (7) | |
C8 | 0.1990 (3) | 0.4308 (2) | 0.18224 (15) | 0.0547 (9) | |
H8 | 0.2838 | 0.4490 | 0.1788 | 0.066* | |
C9 | 0.1284 (4) | 0.4527 (2) | 0.22584 (16) | 0.0656 (11) | |
H9 | 0.1665 | 0.4845 | 0.2523 | 0.079* | |
C10 | −0.0011 (4) | 0.4278 (2) | 0.23128 (16) | 0.0601 (10) | |
H10 | −0.0481 | 0.4428 | 0.2614 | 0.072* | |
C11 | −0.0577 (3) | 0.38162 (19) | 0.19249 (13) | 0.0479 (8) | |
H11 | −0.1443 | 0.3663 | 0.1961 | 0.058* | |
C12 | 0.0123 (3) | 0.35635 (17) | 0.14671 (12) | 0.0391 (7) | |
C13 | −0.3092 (4) | 0.2129 (3) | −0.01395 (16) | 0.0700 (11) | |
H13 | −0.2517 | 0.2490 | 0.0002 | 0.084* | |
C14 | −0.2883 (6) | 0.1845 (3) | −0.06573 (19) | 0.0922 (16) | |
H14 | −0.2183 | 0.2013 | −0.0857 | 0.111* | |
C15 | −0.3710 (6) | 0.1317 (3) | −0.08722 (19) | 0.0941 (17) | |
H15 | −0.3579 | 0.1118 | −0.1221 | 0.113* | |
C16 | −0.4757 (5) | 0.1074 (2) | −0.05670 (17) | 0.0745 (13) | |
C17 | −0.4900 (4) | 0.1399 (2) | −0.00375 (15) | 0.0576 (9) | |
C18 | −0.6015 (4) | 0.1187 (2) | 0.02941 (16) | 0.0594 (9) | |
C19 | −0.7109 (4) | 0.1349 (3) | 0.11008 (18) | 0.0728 (12) | |
H19 | −0.7177 | 0.1574 | 0.1444 | 0.087* | |
C20 | −0.8077 (5) | 0.0843 (3) | 0.0918 (2) | 0.0939 (16) | |
H20 | −0.8771 | 0.0730 | 0.1140 | 0.113* | |
C21 | −0.8000 (6) | 0.0519 (3) | 0.0412 (2) | 0.0998 (18) | |
H21 | −0.8649 | 0.0187 | 0.0287 | 0.120* | |
C22 | −0.6958 (5) | 0.0681 (2) | 0.0083 (2) | 0.0756 (13) | |
C23 | −0.6763 (6) | 0.0345 (2) | −0.0464 (2) | 0.0881 (16) | |
C24 | −0.5695 (6) | 0.0536 (3) | −0.0767 (2) | 0.0886 (16) | |
C25 | −0.6398 (9) | −0.0267 (4) | −0.1436 (3) | 0.136 (3) | |
H25 | −0.6293 | −0.0496 | −0.1776 | 0.163* | |
C37 | 0.5715 (3) | 0.39238 (19) | −0.05089 (12) | 0.0446 (8) | |
C27 | 0.5540 (3) | 0.35972 (18) | −0.10812 (12) | 0.0410 (7) | |
C28 | 0.6395 (3) | 0.3818 (2) | −0.14703 (13) | 0.0499 (8) | |
H28 | 0.7086 | 0.4138 | −0.1372 | 0.060* | |
C29 | 0.6224 (3) | 0.3559 (2) | −0.20185 (13) | 0.0517 (9) | |
H29 | 0.6786 | 0.3733 | −0.2282 | 0.062* | |
C30 | 0.5264 (3) | 0.30628 (19) | −0.21783 (12) | 0.0442 (7) | |
C31 | 0.4382 (3) | 0.27968 (18) | −0.17752 (13) | 0.0445 (7) | |
C32 | 0.4512 (3) | 0.30909 (17) | −0.12241 (12) | 0.0397 (7) | |
C33 | 0.3619 (3) | 0.28391 (19) | −0.08297 (14) | 0.0494 (8) | |
H33 | 0.3691 | 0.3024 | −0.0470 | 0.059* | |
C34 | 0.2665 (4) | 0.2336 (2) | −0.09643 (16) | 0.0592 (9) | |
H34 | 0.2092 | 0.2181 | −0.0699 | 0.071* | |
C35 | 0.2542 (4) | 0.2049 (2) | −0.15068 (17) | 0.0674 (11) | |
H35 | 0.1888 | 0.1703 | −0.1597 | 0.081* | |
C36 | 0.3372 (4) | 0.2273 (2) | −0.19022 (15) | 0.0580 (9) | |
H36 | 0.3273 | 0.2081 | −0.2259 | 0.070* | |
C51 | 0.8524 (3) | 0.5368 (2) | 0.02255 (17) | 0.0620 (10) | |
H51 | 0.8307 | 0.5181 | −0.0126 | 0.074* | |
C52 | 0.9583 (4) | 0.5867 (3) | 0.0293 (2) | 0.0751 (12) | |
H52 | 1.0071 | 0.5997 | −0.0008 | 0.090* | |
C39 | 0.9884 (4) | 0.6155 (2) | 0.0800 (2) | 0.0741 (12) | |
H39 | 1.0591 | 0.6480 | 0.0851 | 0.089* | |
C40 | 0.9125 (3) | 0.5962 (2) | 0.12481 (18) | 0.0603 (10) | |
C41 | 0.8104 (3) | 0.54562 (18) | 0.11505 (15) | 0.0487 (8) | |
C42 | 0.7306 (3) | 0.52209 (18) | 0.16042 (13) | 0.0460 (8) | |
C43 | 0.5710 (4) | 0.4436 (2) | 0.19117 (14) | 0.0560 (9) | |
H43 | 0.5094 | 0.4063 | 0.1837 | 0.067* | |
C44 | 0.5895 (4) | 0.4687 (3) | 0.24498 (15) | 0.0713 (12) | |
H44 | 0.5412 | 0.4486 | 0.2731 | 0.086* | |
C45 | 0.6790 (5) | 0.5229 (3) | 0.25628 (16) | 0.0748 (12) | |
H45 | 0.6903 | 0.5417 | 0.2920 | 0.090* | |
C46 | 0.7542 (4) | 0.5505 (2) | 0.21401 (16) | 0.0606 (10) | |
C47 | 0.8596 (4) | 0.6035 (2) | 0.22339 (19) | 0.0721 (12) | |
C48 | 0.9361 (4) | 0.6261 (2) | 0.1809 (2) | 0.0717 (12) | |
C49 | 1.0560 (6) | 0.6983 (4) | 0.2412 (3) | 0.133 (3) | |
H49 | 1.1250 | 0.7307 | 0.2502 | 0.159* | |
C50 | 0.9796 (7) | 0.6756 (4) | 0.2822 (3) | 0.139 (3) | |
H50 | 0.9973 | 0.6949 | 0.3175 | 0.166* | |
C26 | −0.7458 (9) | −0.0447 (3) | −0.1141 (3) | 0.135 (3) | |
H26 | −0.8039 | −0.0799 | −0.1292 | 0.162* | |
C38 | 0.5209 (4) | 0.2833 (2) | −0.27837 (14) | 0.0550 (9) | |
N1 | −0.4071 (3) | 0.19142 (18) | 0.01702 (11) | 0.0566 (8) | |
N2 | −0.6093 (3) | 0.15162 (17) | 0.07961 (12) | 0.0572 (8) | |
N3 | −0.5537 (6) | 0.0211 (3) | −0.12589 (18) | 0.1127 (16) | |
N4 | −0.7733 (6) | −0.0151 (3) | −0.0640 (2) | 0.1245 (18) | |
N5 | 0.7827 (3) | 0.51551 (16) | 0.06439 (11) | 0.0493 (7) | |
N6 | 0.6371 (3) | 0.47031 (16) | 0.14962 (11) | 0.0475 (6) | |
N7 | 1.0374 (4) | 0.6763 (2) | 0.1874 (2) | 0.1060 (15) | |
N8 | 0.8831 (4) | 0.6286 (3) | 0.27568 (18) | 0.1051 (15) | |
O1 | −0.2026 (2) | 0.21104 (15) | 0.11367 (13) | 0.0757 (8) | |
O2 | −0.2733 (2) | 0.32490 (14) | 0.10492 (10) | 0.0542 (6) | |
O3 | 0.3700 (2) | 0.44930 (15) | 0.08679 (10) | 0.0592 (7) | |
O4 | 0.4440 (2) | 0.33603 (14) | 0.07412 (9) | 0.0541 (6) | |
O5 | 0.6779 (2) | 0.38371 (15) | −0.02369 (9) | 0.0590 (6) | |
O6 | 0.4775 (2) | 0.42831 (13) | −0.03190 (9) | 0.0499 (6) | |
O7 | 0.4653 (4) | 0.2287 (2) | −0.29578 (13) | 0.1165 (14) | |
O8 | 0.5719 (4) | 0.3244 (2) | −0.31033 (11) | 0.1151 (14) | |
Cd1 | −0.44274 (2) | 0.236071 (14) | 0.109183 (9) | 0.04296 (8) | |
Cd2 | 0.59398 (2) | 0.441582 (15) | 0.056187 (9) | 0.04714 (8) |
U11 | U22 | U33 | U12 | U13 | U23 | |
C1 | 0.0371 (17) | 0.059 (2) | 0.0370 (16) | −0.0046 (15) | −0.0003 (13) | 0.0083 (15) |
C2 | 0.0334 (15) | 0.0430 (18) | 0.0428 (16) | −0.0021 (13) | 0.0007 (13) | 0.0079 (14) |
C3 | 0.0432 (18) | 0.054 (2) | 0.0477 (18) | −0.0060 (15) | 0.0002 (15) | −0.0037 (16) |
C4 | 0.0385 (17) | 0.061 (2) | 0.0426 (17) | −0.0009 (15) | 0.0093 (14) | −0.0037 (16) |
C5 | 0.0312 (15) | 0.054 (2) | 0.0390 (16) | −0.0021 (13) | 0.0022 (13) | 0.0073 (14) |
C6 | 0.0321 (16) | 0.075 (3) | 0.0304 (15) | −0.0060 (16) | −0.0003 (12) | 0.0044 (15) |
C7 | 0.0333 (15) | 0.0464 (18) | 0.0431 (16) | −0.0006 (13) | 0.0018 (13) | 0.0045 (14) |
C8 | 0.0412 (18) | 0.064 (2) | 0.058 (2) | −0.0062 (16) | 0.0019 (16) | −0.0098 (18) |
C9 | 0.058 (2) | 0.077 (3) | 0.062 (2) | −0.001 (2) | 0.0012 (19) | −0.021 (2) |
C10 | 0.052 (2) | 0.074 (3) | 0.055 (2) | 0.0129 (19) | 0.0085 (18) | −0.0076 (19) |
C11 | 0.0372 (16) | 0.058 (2) | 0.0486 (18) | 0.0056 (15) | 0.0031 (14) | 0.0030 (16) |
C12 | 0.0355 (15) | 0.0424 (18) | 0.0392 (15) | 0.0026 (13) | 0.0011 (13) | 0.0076 (13) |
C13 | 0.065 (3) | 0.091 (3) | 0.054 (2) | 0.008 (2) | 0.007 (2) | 0.003 (2) |
C14 | 0.096 (4) | 0.121 (5) | 0.060 (3) | 0.015 (3) | 0.015 (3) | −0.009 (3) |
C15 | 0.117 (4) | 0.114 (4) | 0.052 (2) | 0.042 (4) | 0.011 (3) | −0.007 (3) |
C16 | 0.099 (3) | 0.065 (3) | 0.057 (2) | 0.029 (2) | −0.025 (2) | −0.011 (2) |
C17 | 0.068 (2) | 0.055 (2) | 0.0483 (19) | 0.0132 (19) | −0.0153 (18) | 0.0039 (17) |
C18 | 0.068 (2) | 0.050 (2) | 0.057 (2) | 0.0029 (18) | −0.0254 (19) | 0.0090 (17) |
C19 | 0.061 (2) | 0.086 (3) | 0.071 (3) | −0.020 (2) | −0.005 (2) | 0.020 (2) |
C20 | 0.072 (3) | 0.107 (4) | 0.102 (4) | −0.037 (3) | −0.009 (3) | 0.037 (3) |
C21 | 0.112 (4) | 0.080 (4) | 0.102 (4) | −0.042 (3) | −0.052 (3) | 0.022 (3) |
C22 | 0.085 (3) | 0.055 (3) | 0.083 (3) | −0.012 (2) | −0.032 (3) | 0.020 (2) |
C23 | 0.129 (4) | 0.044 (2) | 0.085 (3) | 0.000 (3) | −0.058 (3) | −0.001 (2) |
C24 | 0.132 (5) | 0.062 (3) | 0.068 (3) | 0.026 (3) | −0.033 (3) | −0.009 (2) |
C25 | 0.192 (7) | 0.092 (5) | 0.117 (5) | 0.024 (5) | −0.055 (5) | −0.026 (4) |
C37 | 0.054 (2) | 0.049 (2) | 0.0310 (15) | −0.0104 (15) | 0.0018 (15) | −0.0018 (14) |
C27 | 0.0449 (17) | 0.0470 (19) | 0.0311 (14) | 0.0069 (14) | 0.0013 (13) | −0.0033 (13) |
C28 | 0.0512 (19) | 0.057 (2) | 0.0414 (17) | −0.0062 (16) | 0.0026 (15) | −0.0079 (15) |
C29 | 0.055 (2) | 0.066 (2) | 0.0353 (16) | 0.0031 (18) | 0.0117 (15) | −0.0066 (16) |
C30 | 0.0530 (19) | 0.048 (2) | 0.0310 (15) | 0.0097 (15) | 0.0005 (14) | −0.0055 (14) |
C31 | 0.0486 (18) | 0.0437 (19) | 0.0407 (16) | 0.0088 (14) | −0.0034 (14) | −0.0048 (14) |
C32 | 0.0433 (17) | 0.0411 (18) | 0.0344 (15) | 0.0066 (13) | −0.0002 (13) | −0.0031 (13) |
C33 | 0.054 (2) | 0.051 (2) | 0.0428 (17) | −0.0013 (16) | 0.0047 (16) | −0.0018 (15) |
C34 | 0.061 (2) | 0.061 (2) | 0.057 (2) | −0.0100 (19) | 0.0071 (18) | 0.0013 (18) |
C35 | 0.067 (3) | 0.059 (2) | 0.075 (3) | −0.015 (2) | −0.006 (2) | −0.007 (2) |
C36 | 0.065 (2) | 0.057 (2) | 0.051 (2) | −0.0052 (18) | −0.0059 (18) | −0.0150 (17) |
C51 | 0.0455 (19) | 0.078 (3) | 0.062 (2) | −0.0051 (18) | −0.0009 (17) | 0.010 (2) |
C52 | 0.052 (2) | 0.078 (3) | 0.095 (3) | −0.006 (2) | 0.001 (2) | 0.022 (3) |
C39 | 0.047 (2) | 0.055 (3) | 0.119 (4) | −0.0069 (18) | −0.012 (2) | 0.002 (2) |
C40 | 0.0409 (19) | 0.050 (2) | 0.088 (3) | 0.0020 (16) | −0.0132 (19) | −0.007 (2) |
C41 | 0.0400 (17) | 0.0422 (19) | 0.062 (2) | 0.0024 (14) | −0.0117 (16) | −0.0065 (16) |
C42 | 0.0435 (17) | 0.0437 (19) | 0.0492 (18) | 0.0118 (15) | −0.0135 (15) | −0.0100 (15) |
C43 | 0.055 (2) | 0.069 (2) | 0.0431 (18) | 0.0020 (18) | −0.0015 (16) | −0.0034 (17) |
C44 | 0.075 (3) | 0.098 (3) | 0.0413 (19) | 0.004 (3) | 0.0014 (19) | −0.005 (2) |
C45 | 0.085 (3) | 0.097 (3) | 0.041 (2) | 0.014 (3) | −0.010 (2) | −0.022 (2) |
C46 | 0.060 (2) | 0.058 (2) | 0.062 (2) | 0.0125 (18) | −0.0204 (19) | −0.0219 (19) |
C47 | 0.063 (2) | 0.064 (3) | 0.087 (3) | 0.010 (2) | −0.019 (2) | −0.038 (2) |
C48 | 0.049 (2) | 0.052 (2) | 0.111 (3) | 0.0065 (18) | −0.026 (2) | −0.033 (2) |
C49 | 0.072 (4) | 0.121 (5) | 0.201 (8) | −0.008 (3) | −0.032 (4) | −0.106 (6) |
C50 | 0.105 (5) | 0.149 (6) | 0.159 (6) | −0.014 (5) | −0.021 (4) | −0.102 (5) |
C26 | 0.228 (9) | 0.046 (3) | 0.121 (5) | −0.009 (4) | −0.088 (6) | −0.021 (3) |
C38 | 0.063 (2) | 0.066 (3) | 0.0362 (17) | 0.0125 (19) | 0.0031 (17) | −0.0149 (17) |
N1 | 0.0557 (18) | 0.070 (2) | 0.0437 (15) | 0.0025 (16) | −0.0037 (14) | 0.0003 (15) |
N2 | 0.0562 (18) | 0.060 (2) | 0.0542 (17) | −0.0088 (15) | −0.0060 (14) | 0.0111 (15) |
N3 | 0.167 (4) | 0.084 (3) | 0.082 (3) | 0.036 (3) | −0.045 (3) | −0.033 (2) |
N4 | 0.170 (5) | 0.070 (3) | 0.127 (4) | −0.018 (3) | −0.069 (3) | 0.004 (3) |
N5 | 0.0393 (14) | 0.0575 (18) | 0.0503 (16) | −0.0036 (13) | −0.0046 (12) | 0.0021 (14) |
N6 | 0.0469 (15) | 0.0522 (17) | 0.0426 (14) | 0.0013 (13) | −0.0047 (12) | −0.0086 (13) |
N7 | 0.060 (2) | 0.087 (3) | 0.169 (4) | −0.008 (2) | −0.020 (2) | −0.062 (3) |
N8 | 0.094 (3) | 0.113 (3) | 0.106 (3) | 0.000 (3) | −0.026 (2) | −0.067 (3) |
O1 | 0.0499 (15) | 0.0560 (17) | 0.119 (2) | −0.0124 (13) | −0.0162 (15) | 0.0243 (16) |
O2 | 0.0339 (12) | 0.0611 (16) | 0.0675 (15) | 0.0025 (11) | 0.0015 (11) | 0.0031 (12) |
O3 | 0.0568 (15) | 0.0641 (17) | 0.0574 (15) | −0.0205 (12) | 0.0101 (12) | −0.0056 (12) |
O4 | 0.0349 (12) | 0.0788 (17) | 0.0488 (13) | 0.0077 (11) | 0.0056 (10) | 0.0202 (12) |
O5 | 0.0551 (15) | 0.0814 (19) | 0.0398 (12) | −0.0068 (13) | −0.0068 (11) | −0.0041 (12) |
O6 | 0.0620 (14) | 0.0525 (14) | 0.0362 (11) | −0.0039 (11) | 0.0131 (11) | −0.0078 (10) |
O7 | 0.175 (4) | 0.116 (3) | 0.0603 (19) | −0.043 (3) | 0.021 (2) | −0.0422 (19) |
O8 | 0.188 (4) | 0.121 (3) | 0.0386 (15) | −0.047 (3) | 0.025 (2) | −0.0161 (17) |
Cd1 | 0.03732 (12) | 0.05805 (16) | 0.03338 (12) | −0.00738 (10) | 0.00029 (9) | 0.00770 (10) |
Cd2 | 0.03955 (13) | 0.06988 (18) | 0.03222 (12) | −0.01781 (11) | 0.00419 (9) | −0.01023 (11) |
C1—O1 | 1.239 (4) | C30—C31 | 1.437 (4) |
C1—O2 | 1.253 (4) | C30—C38 | 1.519 (4) |
C1—C2 | 1.499 (4) | C31—C36 | 1.418 (5) |
C2—C3 | 1.369 (4) | C31—C32 | 1.433 (4) |
C2—C12 | 1.418 (4) | C32—C33 | 1.422 (4) |
C3—C4 | 1.406 (4) | C33—C34 | 1.356 (5) |
C3—H3 | 0.9300 | C33—H33 | 0.9300 |
C4—C5 | 1.369 (4) | C34—C35 | 1.409 (5) |
C4—H4 | 0.9300 | C34—H34 | 0.9300 |
C5—C7 | 1.428 (4) | C35—C36 | 1.366 (5) |
C5—C6 | 1.510 (4) | C35—H35 | 0.9300 |
C6—O3 | 1.241 (4) | C36—H36 | 0.9300 |
C6—O4 | 1.268 (4) | C51—N5 | 1.319 (4) |
C7—C8 | 1.416 (5) | C51—C52 | 1.407 (5) |
C7—C12 | 1.431 (4) | C51—H51 | 0.9300 |
C8—C9 | 1.361 (5) | C52—C39 | 1.352 (6) |
C8—H8 | 0.9300 | C52—H52 | 0.9300 |
C9—C10 | 1.403 (5) | C39—C40 | 1.404 (6) |
C9—H9 | 0.9300 | C39—H39 | 0.9300 |
C10—C11 | 1.361 (5) | C40—C41 | 1.393 (5) |
C10—H10 | 0.9300 | C40—C48 | 1.468 (6) |
C11—C12 | 1.419 (4) | C41—N5 | 1.356 (4) |
C11—H11 | 0.9300 | C41—C42 | 1.458 (5) |
C13—N1 | 1.331 (5) | C42—N6 | 1.349 (4) |
C13—C14 | 1.378 (6) | C42—C46 | 1.402 (5) |
C13—H13 | 0.9300 | C43—N6 | 1.326 (4) |
C14—C15 | 1.357 (7) | C43—C44 | 1.381 (5) |
C14—H14 | 0.9300 | C43—H43 | 0.9300 |
C15—C16 | 1.394 (7) | C44—C45 | 1.355 (6) |
C15—H15 | 0.9300 | C44—H44 | 0.9300 |
C16—C17 | 1.421 (5) | C45—C46 | 1.396 (6) |
C16—C24 | 1.429 (7) | C45—H45 | 0.9300 |
C17—N1 | 1.336 (5) | C46—C47 | 1.446 (6) |
C17—C18 | 1.469 (5) | C47—N8 | 1.352 (5) |
C18—N2 | 1.356 (5) | C47—C48 | 1.379 (6) |
C18—C22 | 1.402 (5) | C48—N7 | 1.374 (5) |
C19—N2 | 1.332 (5) | C49—C50 | 1.352 (9) |
C19—C20 | 1.397 (6) | C49—N7 | 1.365 (7) |
C19—H19 | 0.9300 | C49—H49 | 0.9300 |
C20—C21 | 1.360 (7) | C50—N8 | 1.300 (7) |
C20—H20 | 0.9300 | C50—H50 | 0.9300 |
C21—C22 | 1.387 (7) | C26—N4 | 1.365 (8) |
C21—H21 | 0.9300 | C26—H26 | 0.9300 |
C22—C23 | 1.475 (7) | C38—O7 | 1.200 (5) |
C23—N4 | 1.383 (6) | C38—O8 | 1.206 (5) |
C23—C24 | 1.383 (8) | Cd1—N1 | 2.412 (3) |
C24—N3 | 1.341 (6) | Cd1—N2 | 2.362 (3) |
C25—N3 | 1.287 (9) | Cd2—N5 | 2.336 (3) |
C25—C26 | 1.359 (10) | Cd2—N6 | 2.337 (3) |
C25—H25 | 0.9300 | Cd1—O1 | 2.479 (3) |
C37—O5 | 1.248 (4) | Cd1—O2 | 2.358 (2) |
C37—O6 | 1.259 (4) | Cd2—O3 | 2.431 (2) |
C37—C27 | 1.506 (4) | Cd2—O4 | 2.490 (2) |
C37—Cd2 | 2.734 (3) | Cd2—O5 | 2.388 (2) |
C27—C28 | 1.370 (4) | Cd2—O6 | 2.396 (2) |
C27—C32 | 1.418 (4) | Cd1—O8i | 2.228 (3) |
C28—C29 | 1.407 (4) | Cd1—O4ii | 2.280 (2) |
C28—H28 | 0.9300 | Cd1—O7i | 2.599 (3) |
C29—C30 | 1.366 (5) | Cd2—O6iii | 2.518 (2) |
C29—H29 | 0.9300 | ||
O1—C1—O2 | 122.3 (3) | C52—C51—H51 | 118.9 |
O1—C1—C2 | 117.8 (3) | C39—C52—C51 | 119.3 (4) |
O2—C1—C2 | 119.9 (3) | C39—C52—H52 | 120.3 |
O1—C1—Cd1 | 63.94 (18) | C51—C52—H52 | 120.3 |
O2—C1—Cd1 | 58.38 (16) | C52—C39—C40 | 119.6 (4) |
C2—C1—Cd1 | 177.8 (2) | C52—C39—H39 | 120.2 |
C3—C2—C12 | 120.1 (3) | C40—C39—H39 | 120.2 |
C3—C2—C1 | 118.2 (3) | C41—C40—C39 | 117.7 (4) |
C12—C2—C1 | 121.7 (3) | C41—C40—C48 | 119.0 (4) |
C2—C3—C4 | 120.8 (3) | C39—C40—C48 | 123.3 (4) |
C2—C3—H3 | 119.6 | N5—C41—C40 | 122.4 (3) |
C4—C3—H3 | 119.6 | N5—C41—C42 | 117.6 (3) |
C5—C4—C3 | 121.0 (3) | C40—C41—C42 | 120.0 (3) |
C5—C4—H4 | 119.5 | N6—C42—C46 | 121.2 (3) |
C3—C4—H4 | 119.5 | N6—C42—C41 | 117.9 (3) |
C4—C5—C7 | 119.8 (3) | C46—C42—C41 | 120.8 (3) |
C4—C5—C6 | 118.6 (3) | N6—C43—C44 | 122.9 (4) |
C7—C5—C6 | 121.5 (3) | N6—C43—H43 | 118.6 |
O3—C6—O4 | 122.8 (3) | C44—C43—H43 | 118.6 |
O3—C6—C5 | 118.2 (3) | C45—C44—C43 | 119.1 (4) |
O4—C6—C5 | 118.8 (3) | C45—C44—H44 | 120.5 |
C8—C7—C5 | 122.7 (3) | C43—C44—H44 | 120.5 |
C8—C7—C12 | 118.4 (3) | C44—C45—C46 | 119.7 (3) |
C5—C7—C12 | 118.8 (3) | C44—C45—H45 | 120.1 |
C9—C8—C7 | 121.0 (3) | C46—C45—H45 | 120.1 |
C9—C8—H8 | 119.5 | C45—C46—C42 | 118.1 (4) |
C7—C8—H8 | 119.5 | C45—C46—C47 | 123.3 (4) |
C8—C9—C10 | 120.8 (4) | C42—C46—C47 | 118.6 (4) |
C8—C9—H9 | 119.6 | N8—C47—C48 | 121.1 (4) |
C10—C9—H9 | 119.6 | N8—C47—C46 | 117.6 (5) |
C11—C10—C9 | 119.9 (3) | C48—C47—C46 | 121.3 (4) |
C11—C10—H10 | 120.0 | N7—C48—C47 | 123.8 (4) |
C9—C10—H10 | 120.0 | N7—C48—C40 | 115.8 (5) |
C10—C11—C12 | 121.5 (3) | C47—C48—C40 | 120.4 (4) |
C10—C11—H11 | 119.3 | C50—C49—N7 | 123.5 (5) |
C12—C11—H11 | 119.3 | C50—C49—H49 | 118.2 |
C2—C12—C11 | 122.3 (3) | N7—C49—H49 | 118.2 |
C2—C12—C7 | 119.3 (3) | N8—C50—C49 | 124.4 (6) |
C11—C12—C7 | 118.3 (3) | N8—C50—H50 | 117.8 |
N1—C13—C14 | 123.7 (5) | C49—C50—H50 | 117.8 |
N1—C13—H13 | 118.1 | C25—C26—N4 | 125.0 (7) |
C14—C13—H13 | 118.1 | C25—C26—H26 | 117.5 |
C15—C14—C13 | 119.2 (5) | N4—C26—H26 | 117.5 |
C15—C14—H14 | 120.4 | O7—C38—O8 | 119.3 (4) |
C13—C14—H14 | 120.4 | O7—C38—C30 | 123.8 (4) |
C14—C15—C16 | 119.5 (4) | O8—C38—C30 | 116.8 (4) |
C14—C15—H15 | 120.2 | C13—N1—C17 | 117.8 (3) |
C16—C15—H15 | 120.2 | C13—N1—Cd1 | 124.9 (3) |
C15—C16—C17 | 117.4 (4) | C17—N1—Cd1 | 117.3 (2) |
C15—C16—C24 | 123.2 (5) | C19—N2—C18 | 118.4 (3) |
C17—C16—C24 | 119.3 (5) | C19—N2—Cd1 | 122.9 (3) |
N1—C17—C16 | 122.3 (4) | C18—N2—Cd1 | 118.7 (2) |
N1—C17—C18 | 117.7 (3) | C25—N3—C24 | 118.6 (7) |
C16—C17—C18 | 119.9 (4) | C26—N4—C23 | 110.7 (6) |
N2—C18—C22 | 122.9 (4) | C51—N5—C41 | 118.7 (3) |
N2—C18—C17 | 117.0 (3) | C51—N5—Cd2 | 124.7 (2) |
C22—C18—C17 | 120.1 (4) | C41—N5—Cd2 | 116.0 (2) |
N2—C19—C20 | 121.7 (4) | C43—N6—C42 | 118.9 (3) |
N2—C19—H19 | 119.1 | C43—N6—Cd2 | 124.9 (2) |
C20—C19—H19 | 119.1 | C42—N6—Cd2 | 116.0 (2) |
C21—C20—C19 | 119.7 (5) | C49—N7—C48 | 111.6 (5) |
C21—C20—H20 | 120.2 | C50—N8—C47 | 115.5 (6) |
C19—C20—H20 | 120.2 | C1—O1—Cd1 | 89.4 (2) |
C20—C21—C22 | 120.2 (4) | C1—O2—Cd1 | 94.7 (2) |
C20—C21—H21 | 119.9 | C6—O3—Cd2 | 93.7 (2) |
C22—C21—H21 | 119.9 | C6—O4—Cd1iv | 140.3 (2) |
C21—C22—C18 | 117.1 (4) | C6—O4—Cd2 | 90.3 (2) |
C21—C22—C23 | 124.5 (5) | Cd1iv—O4—Cd2 | 111.56 (9) |
C18—C22—C23 | 118.4 (5) | C37—O5—Cd2 | 92.09 (19) |
N4—C23—C24 | 124.3 (5) | C37—O6—Cd2 | 91.39 (19) |
N4—C23—C22 | 114.6 (6) | C37—O6—Cd2iii | 127.61 (19) |
C24—C23—C22 | 121.0 (4) | Cd2—O6—Cd2iii | 103.78 (8) |
N3—C24—C23 | 119.4 (6) | C38—O7—Cd1v | 85.8 (2) |
N3—C24—C16 | 119.4 (6) | C38—O8—Cd1v | 104.2 (3) |
C23—C24—C16 | 121.2 (4) | O8i—Cd1—O4ii | 136.26 (11) |
N3—C25—C26 | 121.9 (7) | O8i—Cd1—O2 | 110.67 (14) |
N3—C25—H25 | 119.1 | O4ii—Cd1—O2 | 78.62 (8) |
C26—C25—H25 | 119.1 | O8i—Cd1—N2 | 87.97 (14) |
O5—C37—O6 | 121.7 (3) | O4ii—Cd1—N2 | 93.24 (10) |
O5—C37—C27 | 119.7 (3) | O2—Cd1—N2 | 159.91 (9) |
O6—C37—C27 | 118.6 (3) | O8i—Cd1—N1 | 129.46 (12) |
O5—C37—Cd2 | 60.77 (16) | O4ii—Cd1—N1 | 90.96 (9) |
O6—C37—Cd2 | 61.20 (16) | O2—Cd1—N1 | 92.53 (10) |
C27—C37—Cd2 | 175.4 (2) | N2—Cd1—N1 | 69.07 (11) |
C28—C27—C32 | 120.3 (3) | O8i—Cd1—O1 | 81.31 (13) |
C28—C27—C37 | 117.8 (3) | O4ii—Cd1—O1 | 129.66 (8) |
C32—C27—C37 | 121.9 (3) | O2—Cd1—O1 | 53.58 (8) |
C27—C28—C29 | 119.7 (3) | N2—Cd1—O1 | 125.82 (10) |
C27—C28—H28 | 120.1 | N1—Cd1—O1 | 77.76 (11) |
C29—C28—H28 | 120.1 | O8i—Cd1—O7i | 50.23 (11) |
C30—C29—C28 | 122.5 (3) | O4ii—Cd1—O7i | 86.47 (10) |
C30—C29—H29 | 118.7 | O2—Cd1—O7i | 99.61 (12) |
C28—C29—H29 | 118.7 | N2—Cd1—O7i | 98.16 (13) |
C29—C30—C31 | 119.2 (3) | N1—Cd1—O7i | 166.83 (13) |
C29—C30—C38 | 116.4 (3) | O1—Cd1—O7i | 113.64 (13) |
C31—C30—C38 | 124.5 (3) | N5—Cd2—N6 | 71.14 (10) |
C36—C31—C32 | 118.7 (3) | N5—Cd2—O5 | 89.68 (9) |
C36—C31—C30 | 123.0 (3) | N6—Cd2—O5 | 145.10 (9) |
C32—C31—C30 | 118.3 (3) | N5—Cd2—O6 | 120.03 (9) |
C27—C32—C33 | 122.0 (3) | N6—Cd2—O6 | 160.30 (9) |
C27—C32—C31 | 119.9 (3) | O5—Cd2—O6 | 54.47 (8) |
C33—C32—C31 | 118.1 (3) | N5—Cd2—O3 | 135.91 (9) |
C34—C33—C32 | 121.7 (3) | N6—Cd2—O3 | 80.09 (9) |
C34—C33—H33 | 119.2 | O5—Cd2—O3 | 130.33 (9) |
C32—C33—H33 | 119.2 | O6—Cd2—O3 | 81.17 (8) |
C33—C34—C35 | 120.0 (3) | N5—Cd2—O4 | 158.20 (9) |
C33—C34—H34 | 120.0 | N6—Cd2—O4 | 95.11 (9) |
C35—C34—H34 | 120.0 | O5—Cd2—O4 | 92.97 (8) |
C36—C35—C34 | 120.8 (4) | O6—Cd2—O4 | 78.35 (8) |
C36—C35—H35 | 119.6 | O3—Cd2—O4 | 53.20 (8) |
C34—C35—H35 | 119.6 | N5—Cd2—O6iii | 73.38 (9) |
C35—C36—C31 | 120.8 (3) | N6—Cd2—O6iii | 93.26 (9) |
C35—C36—H36 | 119.6 | O5—Cd2—O6iii | 109.24 (8) |
C31—C36—H36 | 119.6 | O6—Cd2—O6iii | 76.22 (8) |
N5—C51—C52 | 122.2 (4) | O3—Cd2—O6iii | 75.75 (8) |
N5—C51—H51 | 118.9 | O4—Cd2—O6iii | 125.55 (8) |
Symmetry codes: (i) x−1, −y+1/2, z+1/2; (ii) x−1, y, z; (iii) −x+1, −y+1, −z; (iv) x+1, y, z; (v) x+1, −y+1/2, z−1/2. |
Experimental details
Crystal data | |
Chemical formula | [Cd2(C14H8N4)2(C12H6O4)2] |
Mr | 1117.62 |
Crystal system, space group | Monoclinic, P21/c |
Temperature (K) | 293 |
a, b, c (Å) | 10.162 (2), 18.040 (4), 24.160 (5) |
β (°) | 92.78 (3) |
V (Å3) | 4423.9 (15) |
Z | 4 |
Radiation type | Mo Kα |
µ (mm−1) | 1.03 |
Crystal size (mm) | 0.31 × 0.29 × 0.24 |
Data collection | |
Diffractometer | Rigaku R-AXIS RAPID diffractometer |
Absorption correction | Multi-scan (ABSCOR; Higashi, 1995) |
Tmin, Tmax | 0.721, 0.784 |
No. of measured, independent and observed [I > 2σ(I)] reflections | 41917, 10059, 7470 |
Rint | 0.044 |
(sin θ/λ)max (Å−1) | 0.649 |
Refinement | |
R[F2 > 2σ(F2)], wR(F2), S | 0.038, 0.086, 1.05 |
No. of reflections | 10059 |
No. of parameters | 631 |
No. of restraints | 42 |
H-atom treatment | H-atom parameters constrained |
Δρmax, Δρmin (e Å−3) | 0.55, −0.42 |
Computer programs: PROCESS-AUTO (Rigaku, 1998), SHELXS97 (Sheldrick, 2008), SHELXL97 (Sheldrick, 2008), SHELXTL-Plus (Sheldrick, 2008).
Cd1—N1 | 2.412 (3) | Cd2—O4 | 2.490 (2) |
Cd1—N2 | 2.362 (3) | Cd2—O5 | 2.388 (2) |
Cd2—N5 | 2.336 (3) | Cd2—O6 | 2.396 (2) |
Cd2—N6 | 2.337 (3) | Cd1—O8i | 2.228 (3) |
Cd1—O1 | 2.479 (3) | Cd1—O4ii | 2.280 (2) |
Cd1—O2 | 2.358 (2) | Cd1—O7i | 2.599 (3) |
Cd2—O3 | 2.431 (2) | Cd2—O6iii | 2.518 (2) |
Symmetry codes: (i) x−1, −y+1/2, z+1/2; (ii) x−1, y, z; (iii) −x+1, −y+1, −z. |
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Recently, coordination polymers constructed of polynuclear metal clusters and polycarboxylates have attracted intense interest due to their interesting molecular topologies and potential applications as functional materials (Eddaoudi et al., 2001). Polynuclear metal clusters can be very versatile in terms of coordination properties and rigidity, as well as displaying intriguing physical properties in comparison with mononuclear species (Hagrman et al., 1999; Noveron et al., 2002). Recent reviews of the framework topologies and other geometric characteristics of network solids reflect that it remains a challenge to achieve a true advance without understanding the structural aspects of such materials at a molecular or an atomic resolution (Eddaoudi et al., 2001). In this regard, the skilful combination of bridging carboxylates, 2,2'-bipyridyl(bpy)-like chelating ligands and metal ions has generated many interesting coordination architectures. Unfortunately, owing to the termination effect of chelating bpy-like ligands, such coordination polymers containing both polycarboxylates and bpy-like ligands are usually only one- or two-dimensional coordination polymers (Hu et al., 2006). As far as we know, high-dimensional complexes based on dicarboxylate and bpy-like ligands have rarely been reported. The utilization of polynuclear metal clusters as building blocks to construct high-dimensional frameworks has proved to be a feasible route (Wang et al., 2005). One common approach to the synthesis of high-nuclearity clusters is to control the hydrolysis of metal salts with the aid of carboxylate ligands, where the carboxylate group may induce core aggregation, and it should be feasible to link discrete clusters into an extended network via the linear bridging ability of the carboxylate. In this work, we chose 1,4-naphthalenedicarboxylic acid (1,4-H2ndc) as the carboxylate-containing ligand and pyrazino[2,3-f]-1,10-phenanthroline (L) as the chelating ligand, yielding an unusual three-dimensional coordination polymer, [Cd2(L)2(1,4-ndc)2], (I), based on tetranuclear CdII clusters.
The asymmetric unit of (I) consists of two crystallographically independent CdII atoms, two unique L chelating ligands and two unique bridging 1,4-ndc ligands (Fig. 1). Both CdII atoms are in a distorted seven-coordinate [CdO5N2] monocapped octahedral coordination geometry. Atom Cd1 bonds to a µ2-O atom [O4i; symmetry code: (i) x-1, y, z] from a carboxylate ligand chelated to the adjoining Cd2 atom, four O atoms [O1, O2, O7iii and O8iii; symmetry code: (iii) x-1, 1/2-y, 1/2+z] from three different 1,4-ndc ligands and two N atoms (N1 and N2) from one chelating L ligand. The coordination environment of atom Cd2 is completed by two N atoms (N5 and N6) from a chelating L ligand, four O atoms (O3, O4, O5 and O6) from two different 1,4-ndc ligands and a µ2-O atom [O6ii; symmetry code: (ii) 1-x, 1-y, -z] from a carboxylate ligand chelated to the adjoining Cd2 [Cd1 ?] atom. Thus, both unique 1,4-ndc ligands are bonded to three CdII atoms.
Tetranuclear clusters are formed in which four Cd atoms are bridged by the carboxylate groups of the 1,4-ndc ligands to form discrete rods (Fig. 2). The distance between the Cd atoms at either end of these rods is about 10.92 (2) Å. Each cluster lies across an inversion centre, with the Cd2 atoms in the middle and the Cd1 atoms on the ends of the rod. This rod-like tetranuclear Cd cluster including the bpy-like chelating ligand L has not been reported so far to the best of our knowledge, although other non-coplanar tetranuclear Cd clusters including bpy-like chelating ligands have been reported (Wei et al., 2005).
The tetranuclear cadmium carboxylate clusters act as rod-shaped secondary building units (SBUs) within the structure of (I). The SBUs are connected together by the aromatic backbone of the dicarboxylate ligands, connecting the clusters into a three-dimensional network (Fig. 3). Each SBU has eight 1,4-ndc ligands radiating outwards. However, these only connect to six adjacent clusters (four by single bridges) to give (4,4) sheets parallel to the yz plane, and two by double bridges in the z direction, to give the three-dimensional net. Each SBU therefore acts as a six-connecting node, and the overall network topology is that of α-polonium (Batten & Robson, 1998; Yang et al., 2008). Recently, several 6-connected nets, such as 44.611, LB-1 (446108), pcu (41263), roa (446108), and rob (48668) have been observed in coordination polymers (Zhang et al., 2007). It is noteworthy that the α-polonium net presented here is clearly different from the 6-connected three-dimensional nets mentioned above. To the best of our knowledge, (I) is the first α-polonium net constructed from rod-like clusters in coordination polymers. The result indicates that an appropriate combination of the dicarboxylate and aromatic chelating ligands is critical to the formation of high-dimensional structures based on metal clusters.