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organic compounds\(\def\hfill{\hskip 5em}\def\hfil{\hskip 3em}\def\eqno#1{\hfil {#1}}\)

Journal logoCRYSTALLOGRAPHIC
COMMUNICATIONS
ISSN: 2056-9890
Volume 71| Part 3| March 2015| Pages o200-o201
doi:10.1107/S2056989015003242

Crystal structure of 1-{1-[2-(phenyl­selan­yl)phen­yl]-1H-1,2,3-triazol-4-yl}cyclo­hexan-1-ol

CROSSMARK_Color_square_no_text.svg
Leandro R. S. Camargo,a Julio Zukerman-Schpector,a* Anna M. Deobald,b Antonio L. Bragac and Edward R. T. Tiekinkd

aDepartmento de Química, Universidade Federal de São Carlos, 13565-905 São Carlos, SP, Brazil, bDepartmento de Química, Universidade Federal de Santa Maria, 97105-900 Santa Maria, RS, Brazil, cDepartmento de Química, Universidade Federal de Santa Catarina, 88040-900 Florianópolis, SC, Brazil, and dDepartment of Chemistry, University of Malaya, 50603 Kuala Lumpur, Malaysia
*Correspondence e-mail: julio@power.ufscar.br

Edited by P. C. Healy, Griffith University, Australia (Received 11 February 2015; accepted 16 February 2015; online 25 February 2015)

Two independent mol­ecules, A and B, comprise the asymmetric unit of the title compound, C20H21N3OSe. While the benzene ring directly bound to the central triazole ring is inclined to the same extent in both mol­ecules [dihedral angles = 40.41 (12) (mol­ecule A) and 44.14 (12)° (B)], greater differences are apparent in the dihedral angles between the Se-bound rings, i.e. 74.28 (12) (mol­ecule A) and 89.91 (11)° (B). Close intra­molecular Se⋯N inter­actions of 2.9311 (18) (mol­ecule A) and 2.9482 (18) Å (B) are noted. In the crystal, supra­molecular chains along the a axis are formed via O—H⋯N hydrogen bonding. These are connected into layers via C—H⋯O and C—H⋯N inter­actions; these stack along (01-1) without directional inter­molecular inter­actions between them.

CCDC reference: 1049508

1. Related literature

For background and synthesis of aryl­seleno-1,2,3-triazoles, including of the title compound, see: Deobald et al. (2011[Deobald, A. M., Camargo, L. R. S., Hörner, M., Rodrigues, O. E. D., Alves, D. & Braga, A. L. (2011). Synthesis, pp. 2397-2406.]). For Se⋯N inter­actions, see: Pati & Zade (2014[Pati, P. B. & Zade, S. S. (2014). Cryst. Growth Des. 14, 1695-1700.]).

[Scheme 1]

2. Experimental

2.1. Crystal data

  • C20H21N3OSe

  • Mr = 398.36

  • Triclinic, [P \overline 1]

  • a = 10.7480 (4) Å

  • b = 13.7497 (6) Å

  • c = 13.8849 (5) Å

  • α = 112.432 (4)°

  • β = 92.889 (3)°

  • γ = 104.059 (3)°

  • V = 1816.28 (13) Å3

  • Z = 4

  • Cu Kα radiation

  • μ = 2.89 mm−1

  • T = 100 K

  • 0.20 × 0.10 × 0.05 mm

2.2. Data collection

  • Agilent SuperNova CCD diffractometer

  • Absorption correction: multi-scan (CrysAlis PRO; Agilent, 2011[Agilent (2011). CrysAlis PRO. Agilent Technologies, Yarnton, England.]) Tmin = 0.884, Tmax = 1.000

  • 26101 measured reflections

  • 7291 independent reflections

  • 7014 reflections with I > 2σ(I)

  • Rint = 0.087

2.3. Refinement

  • R[F2 > 2σ(F2)] = 0.039

  • wR(F2) = 0.107

  • S = 1.08

  • 7291 reflections

  • 453 parameters

  • H-atom parameters constrained

  • Δρmax = 1.06 e Å−3

  • Δρmin = −1.11 e Å−3

Table 1
Hydrogen-bond geometry (Å, °)

D—H⋯A D—H H⋯A DA D—H⋯A
C8—H8⋯N5 0.95 2.32 3.229 (3) 159
C18—H18⋯O1i 0.95 2.46 3.304 (3) 148
C28—H28⋯N2ii 0.95 2.37 3.262 (3) 157
C34—H34⋯O2iii 0.95 2.54 3.488 (3) 173
Symmetry codes: (i) -x+1, -y+1, -z; (ii) x-1, y, z; (iii) -x, -y+2, -z+1.

Data collection: CrysAlis PRO (Agilent, 2011[Agilent (2011). CrysAlis PRO. Agilent Technologies, Yarnton, England.]); cell refinement: CrysAlis PRO; data reduction: CrysAlis PRO; program(s) used to solve structure: SIR2014 (Burla et al., 2015[Burla, M. C., Caliandro, R., Carrozzini, B., Cascarano, G. L., Cuocci, C., Giacovazzo, C., Mallamo, M., Mazzone, A. & Polidori, G. (2015). J. Appl. Cryst. 48, 306-309.]); program(s) used to refine structure: SHELXL2014 (Sheldrick, 2015[Sheldrick, G. M. (2015). Acta Cryst. C71, 3-8.]); molecular graphics: ORTEP-3 for Windows (Farrugia, 2012[Farrugia, L. J. (2012). J. Appl. Cryst. 45, 849-854.]), QMOL (Gans & Shalloway, 2001[Gans, J. & Shalloway, D. (2001). J. Mol. Graph. Model. 19, 557-559.]) and DIAMOND (Brandenburg, 2006[Brandenburg, K. (2006). DIAMOND. Crystal Impact GbR, Bonn, Germany.]); software used to prepare material for publication: MarvinSketch (ChemAxon, 2010[ChemAxon (2010). Marvinsketch. https://www.chemaxon.com.]) and publCIF (Westrip, 2010[Westrip, S. P. (2010). J. Appl. Cryst. 43, 920-925.]).

Supporting information

CCDC reference: 1049508

Crystal structure: contains datablocks I, New_Global_Publ_Block. DOI: 10.1107/S2056989015003242/hg5431sup1.cif

Structure factors: contains datablock I. DOI: 10.1107/S2056989015003242/hg5431Isup2.hkl

Supporting information file. DOI: 10.1107/S2056989015003242/hg5431Isup3.cml

checkCIF report


Related literature top

For background and synthesis of arylseleno-1,2,3-triazoles, including of the title compound, see: Deobald et al. (2011). For Se···N interactions, see: Pati & Zade (2014).

Experimental top

The compound was prepared in accord with the literature (Deobald et al., 2011). Crystals were obtained by slow evaporation at room temperature from its methanol/dicloromethane (1:1 v/v) solution.

Refinement top

Carbon-bound H-atoms were placed in calculated positions (C—H = 0.95 to 0.99 Å) and were included in the refinement in the riding model approximation, with Uiso(H) = 1.25Ueq(C). In the same way the O-bound H-atoms were constrained with O—H = 0.84 Å, with Uiso(H) = 1.5Ueq(O). The maximum and minimum residual electron density peaks of 1.06 and 1.11 e Å-3, respectively were located 0.98 Å and 0.84 Å from the Se2 and Se1 atoms, respectively.

Computing details top

Data collection: CrysAlis PRO (Agilent, 2011); cell refinement: CrysAlis PRO (Agilent, 2011); data reduction: CrysAlis PRO (Agilent, 2011); program(s) used to solve structure: SIR2014 (Burla et al., 2015); program(s) used to refine structure: SHELXL2014 (Sheldrick, 2015); molecular graphics: ORTEP-3 for Windows (Farrugia, 2012), QMOL (Gans & Shalloway, 2001) and DIAMOND (Brandenburg, 2006); software used to prepare material for publication: MarvinSketch (ChemAxon, 2010) and publCIF (Westrip, 2010).

Figures top
[Figure 1] Fig. 1. The molecular structures of the two independent molecules comprising the title compound showing the atom-labelling scheme and displacement ellipsoids at the 70% probability level.
[Figure 2] Fig. 2. Superimposition of the two independent molecules. Molecule A is shown in red and B in blue. The molecules have been superimposed such that the triazol-4-yl rings are overlapped.
[Figure 3] Fig. 3. A view of the linear supramolecular sustained by O—H···N hydrogen bonds (orange dashed lines) and aligned along the a axis in the crystal packing.
[Figure 4] Fig. 4. A view in projection down the a axis of the unit-cell contents. The O—H···N, C—H···O and C—H···N interactions are shown as orange, purple and blue dashed lines, respectively.
1-{1-[2-(Phenylselanyl)phenyl]-1H-1,2,3-triazol-4-yl}cyclohexan-1-ol top
Crystal data top
C20H21N3OSeZ = 4
Mr = 398.36F(000) = 816
Triclinic, P1Dx = 1.457 Mg m3
a = 10.7480 (4) ÅCu Kα radiation, λ = 1.54184 Å
b = 13.7497 (6) ÅCell parameters from 19807 reflections
c = 13.8849 (5) Åθ = 3.5–74.3°
α = 112.432 (4)°µ = 2.89 mm1
β = 92.889 (3)°T = 100 K
γ = 104.059 (3)°Prism, colourless
V = 1816.28 (13) Å30.20 × 0.10 × 0.05 mm
Data collection top
Agilent SuperNova CCD
diffractometer		7014 reflections with I > 2σ(I)
Radiation source: SuperNova (Cu) X-ray SourceRint = 0.087
ω scansθmax = 74.5°, θmin = 3.5°
Absorption correction: multi-scan
(CrysAlis PRO; Agilent, 2011)		h = 1313
Tmin = 0.884, Tmax = 1.000k = 1717
26101 measured reflectionsl = 1716
7291 independent reflections
Refinement top
Refinement on F20 restraints
Least-squares matrix: fullHydrogen site location: inferred from neighbouring sites
R[F2 > 2σ(F2)] = 0.039H-atom parameters constrained
wR(F2) = 0.107 w = 1/[σ2(Fo2) + (0.0551P)2 + 1.3888P]
where P = (Fo2 + 2Fc2)/3
S = 1.08(Δ/σ)max < 0.001
7291 reflectionsΔρmax = 1.06 e Å3
453 parametersΔρmin = 1.11 e Å3
Crystal data top
C20H21N3OSeγ = 104.059 (3)°
Mr = 398.36V = 1816.28 (13) Å3
Triclinic, P1Z = 4
a = 10.7480 (4) ÅCu Kα radiation
b = 13.7497 (6) ŵ = 2.89 mm1
c = 13.8849 (5) ÅT = 100 K
α = 112.432 (4)°0.20 × 0.10 × 0.05 mm
β = 92.889 (3)°
Data collection top
Agilent SuperNova CCD
diffractometer		7291 independent reflections
Absorption correction: multi-scan
(CrysAlis PRO; Agilent, 2011)		7014 reflections with I > 2σ(I)
Tmin = 0.884, Tmax = 1.000Rint = 0.087
26101 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.0390 restraints
wR(F2) = 0.107H-atom parameters constrained
S = 1.08Δρmax = 1.06 e Å3
7291 reflectionsΔρmin = 1.11 e Å3
453 parameters
Special details top

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.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/Ueq
Se10.79205 (2)0.69748 (2)0.10496 (2)0.01986 (9)
O10.42441 (13)0.72340 (12)0.48557 (12)0.0183 (3)
H1O0.39390.77180.47920.027*
N10.64154 (16)0.81972 (13)0.27686 (13)0.0133 (3)
N20.75895 (16)0.82424 (14)0.32115 (14)0.0161 (4)
N30.74173 (17)0.80356 (15)0.40452 (14)0.0155 (3)
C10.56313 (18)0.76209 (16)0.50571 (15)0.0133 (4)
C20.6108 (2)0.86650 (17)0.60809 (16)0.0177 (4)
H2A0.70620.89560.61620.021*
H2B0.57150.92280.60300.021*
C30.5763 (2)0.84618 (18)0.70586 (17)0.0205 (4)
H3A0.61540.91420.77000.025*
H3B0.48080.82720.70280.025*
C40.6255 (2)0.75324 (18)0.71257 (18)0.0228 (5)
H4A0.59770.73900.77400.027*
H4B0.72170.77530.72290.027*
C50.5723 (2)0.64827 (18)0.61151 (17)0.0207 (4)
H5A0.60740.58970.61630.025*
H5B0.47640.62310.60400.025*
C60.6101 (2)0.66891 (16)0.51505 (16)0.0163 (4)
H6A0.57220.60090.45060.020*
H6B0.70580.68760.51990.020*
C70.61347 (19)0.78607 (15)0.41545 (15)0.0131 (4)
C80.54837 (18)0.79664 (15)0.33409 (15)0.0131 (4)
H80.45830.78950.32070.016*
C90.62903 (18)0.84138 (16)0.18508 (16)0.0135 (4)
C100.69676 (19)0.79898 (16)0.10285 (16)0.0143 (4)
C110.6872 (2)0.82657 (17)0.01671 (17)0.0178 (4)
H110.73610.80190.03820.021*
C120.6071 (2)0.88957 (17)0.01020 (17)0.0189 (4)
H120.60050.90710.04940.023*
C130.5359 (2)0.92755 (17)0.09105 (17)0.0190 (4)
H130.47920.96920.08560.023*
C140.5482 (2)0.90447 (16)0.17880 (16)0.0169 (4)
H140.50160.93160.23470.020*
C150.7598 (2)0.61407 (16)0.04505 (17)0.0164 (4)
C160.8578 (2)0.62498 (18)0.10508 (18)0.0215 (4)
H160.94110.67490.07210.026*
C170.8337 (3)0.5628 (2)0.2132 (2)0.0277 (5)
H170.90110.57020.25380.033*
C180.7131 (3)0.49049 (19)0.26226 (19)0.0286 (5)
H180.69730.44790.33630.034*
C190.6151 (2)0.48054 (18)0.2025 (2)0.0290 (6)
H190.53140.43170.23600.035*
C200.6382 (2)0.54102 (18)0.09454 (19)0.0230 (5)
H200.57080.53270.05410.028*
Se20.23728 (2)0.68144 (2)0.10894 (2)0.01583 (8)
O20.02727 (14)0.86348 (14)0.56157 (12)0.0220 (3)
H2O0.08590.83350.50850.033*
N40.15650 (16)0.85609 (13)0.29668 (13)0.0135 (3)
N50.26503 (16)0.83739 (15)0.33016 (14)0.0169 (4)
N60.24879 (17)0.82511 (15)0.41776 (15)0.0172 (4)
C210.08158 (19)0.82042 (17)0.53679 (16)0.0155 (4)
C220.1860 (2)0.88455 (17)0.63518 (16)0.0171 (4)
H22A0.26850.86720.61830.021*
H22B0.20070.96410.65500.021*
C230.1488 (2)0.85807 (18)0.72899 (17)0.0204 (4)
H23A0.22140.89800.78890.025*
H23B0.07200.88330.75140.025*
C240.1178 (2)0.7356 (2)0.70098 (19)0.0267 (5)
H24A0.09150.72050.76240.032*
H24B0.19630.71110.68350.032*
C250.0081 (3)0.6720 (2)0.60657 (18)0.0300 (6)
H25A0.00930.59230.58760.036*
H25B0.07220.69260.62590.036*
C260.0444 (2)0.69690 (18)0.51152 (17)0.0233 (5)
H26A0.03010.65830.45310.028*
H26B0.11840.66820.48730.028*
C270.13023 (19)0.83756 (16)0.44306 (15)0.0142 (4)
C280.07058 (19)0.85768 (16)0.36567 (15)0.0146 (4)
H280.01230.87000.36120.017*
C290.14779 (18)0.87469 (16)0.20299 (16)0.0137 (4)
C300.18517 (18)0.80731 (16)0.11135 (16)0.0140 (4)
C310.18131 (19)0.83302 (17)0.02395 (17)0.0165 (4)
H310.20960.79030.03790.020*
C320.1367 (2)0.92036 (17)0.02572 (17)0.0177 (4)
H320.13460.93690.03470.021*
C330.0950 (2)0.98361 (17)0.11573 (17)0.0185 (4)
H330.06261.04210.11610.022*
C340.10072 (19)0.96140 (17)0.20476 (16)0.0163 (4)
H340.07291.00470.26650.020*
C350.2304 (2)0.60755 (16)0.04120 (17)0.0161 (4)
C360.3411 (2)0.62954 (18)0.08591 (19)0.0230 (5)
H360.41870.68210.04280.028*
C370.3381 (2)0.5748 (2)0.19308 (19)0.0251 (5)
H370.41350.59060.22350.030*
C380.2256 (2)0.49665 (19)0.25669 (18)0.0241 (5)
H380.22390.45940.33030.029*
C390.1154 (2)0.47333 (18)0.21178 (18)0.0223 (5)
H390.03860.41950.25480.027*
C400.1176 (2)0.52865 (17)0.10406 (17)0.0181 (4)
H400.04230.51260.07350.022*
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Se10.02619 (14)0.02673 (14)0.01324 (14)0.01777 (10)0.00654 (10)0.00845 (10)
O10.0129 (7)0.0239 (7)0.0216 (8)0.0041 (6)0.0051 (6)0.0134 (6)
N10.0133 (8)0.0166 (8)0.0119 (8)0.0052 (6)0.0047 (6)0.0069 (6)
N20.0119 (8)0.0250 (9)0.0134 (9)0.0061 (7)0.0033 (6)0.0092 (7)
N30.0154 (8)0.0227 (8)0.0124 (8)0.0073 (7)0.0060 (7)0.0099 (7)
C10.0118 (9)0.0176 (9)0.0112 (9)0.0034 (7)0.0028 (7)0.0070 (8)
C20.0222 (10)0.0174 (9)0.0135 (10)0.0061 (8)0.0079 (8)0.0056 (8)
C30.0247 (10)0.0231 (10)0.0137 (10)0.0074 (8)0.0067 (8)0.0067 (8)
C40.0268 (11)0.0272 (11)0.0161 (11)0.0057 (9)0.0043 (9)0.0116 (9)
C50.0261 (11)0.0217 (10)0.0180 (11)0.0060 (8)0.0039 (9)0.0125 (9)
C60.0203 (10)0.0167 (9)0.0146 (10)0.0072 (8)0.0049 (8)0.0077 (8)
C70.0141 (9)0.0132 (8)0.0115 (9)0.0044 (7)0.0042 (7)0.0040 (7)
C80.0125 (8)0.0167 (9)0.0120 (9)0.0044 (7)0.0040 (7)0.0075 (7)
C90.0137 (9)0.0145 (8)0.0137 (10)0.0034 (7)0.0046 (7)0.0072 (7)
C100.0154 (9)0.0147 (9)0.0154 (10)0.0056 (7)0.0062 (8)0.0078 (7)
C110.0217 (10)0.0199 (10)0.0150 (10)0.0080 (8)0.0099 (8)0.0083 (8)
C120.0266 (11)0.0186 (9)0.0142 (10)0.0065 (8)0.0053 (8)0.0091 (8)
C130.0240 (10)0.0193 (9)0.0201 (11)0.0121 (8)0.0066 (9)0.0109 (8)
C140.0195 (10)0.0189 (9)0.0152 (10)0.0077 (8)0.0070 (8)0.0083 (8)
C150.0202 (10)0.0164 (9)0.0163 (10)0.0087 (8)0.0047 (8)0.0082 (8)
C160.0198 (10)0.0245 (10)0.0198 (11)0.0067 (8)0.0079 (9)0.0078 (9)
C170.0369 (13)0.0317 (12)0.0225 (12)0.0165 (10)0.0149 (10)0.0142 (10)
C180.0481 (15)0.0245 (11)0.0135 (11)0.0198 (11)0.0015 (10)0.0030 (9)
C190.0266 (12)0.0167 (10)0.0354 (14)0.0042 (9)0.0078 (10)0.0046 (10)
C200.0185 (10)0.0212 (10)0.0304 (13)0.0056 (8)0.0072 (9)0.0114 (9)
Se20.02069 (13)0.01657 (13)0.01253 (14)0.00764 (9)0.00494 (9)0.00664 (9)
O20.0158 (7)0.0399 (9)0.0138 (7)0.0139 (6)0.0063 (6)0.0106 (6)
N40.0128 (7)0.0188 (8)0.0128 (8)0.0072 (6)0.0065 (6)0.0082 (7)
N50.0136 (8)0.0296 (9)0.0116 (8)0.0088 (7)0.0044 (7)0.0108 (7)
N60.0157 (8)0.0265 (9)0.0144 (9)0.0100 (7)0.0071 (7)0.0107 (7)
C210.0138 (9)0.0221 (10)0.0121 (9)0.0062 (8)0.0054 (7)0.0075 (8)
C220.0174 (9)0.0208 (10)0.0131 (10)0.0049 (8)0.0049 (8)0.0068 (8)
C230.0222 (10)0.0280 (11)0.0116 (10)0.0085 (9)0.0040 (8)0.0077 (8)
C240.0339 (13)0.0313 (12)0.0201 (12)0.0079 (10)0.0066 (10)0.0167 (10)
C250.0413 (14)0.0263 (11)0.0189 (12)0.0009 (10)0.0073 (11)0.0117 (9)
C260.0294 (11)0.0206 (10)0.0144 (10)0.0005 (9)0.0036 (9)0.0058 (8)
C270.0148 (9)0.0177 (9)0.0112 (9)0.0055 (7)0.0055 (7)0.0060 (7)
C280.0136 (9)0.0219 (9)0.0115 (9)0.0068 (7)0.0069 (7)0.0088 (8)
C290.0101 (8)0.0186 (9)0.0138 (10)0.0033 (7)0.0047 (7)0.0080 (8)
C300.0109 (8)0.0159 (9)0.0139 (10)0.0022 (7)0.0029 (7)0.0058 (8)
C310.0158 (9)0.0208 (10)0.0143 (10)0.0048 (8)0.0065 (8)0.0085 (8)
C320.0181 (10)0.0236 (10)0.0148 (10)0.0056 (8)0.0047 (8)0.0114 (8)
C330.0200 (10)0.0240 (10)0.0176 (10)0.0112 (8)0.0054 (8)0.0115 (8)
C340.0160 (9)0.0203 (9)0.0146 (10)0.0080 (8)0.0054 (8)0.0070 (8)
C350.0199 (10)0.0151 (9)0.0151 (10)0.0072 (8)0.0058 (8)0.0065 (8)
C360.0206 (10)0.0231 (10)0.0240 (12)0.0057 (8)0.0096 (9)0.0078 (9)
C370.0221 (11)0.0336 (12)0.0230 (12)0.0103 (9)0.0127 (9)0.0123 (10)
C380.0309 (12)0.0294 (11)0.0133 (10)0.0136 (10)0.0085 (9)0.0063 (9)
C390.0242 (11)0.0222 (10)0.0184 (11)0.0066 (9)0.0037 (9)0.0061 (9)
C400.0180 (10)0.0199 (10)0.0166 (10)0.0046 (8)0.0046 (8)0.0080 (8)
Geometric parameters (Å, º) top
Se1—C151.920 (2)Se2—C351.927 (2)
Se1—C101.929 (2)Se2—C301.934 (2)
O1—C11.429 (2)O2—C211.435 (2)
O1—H1O0.8400O2—H2O0.8400
N1—N21.352 (2)N4—N51.351 (2)
N1—C81.361 (2)N4—C281.361 (2)
N1—C91.422 (3)N4—C291.421 (3)
N2—N31.305 (3)N5—N61.305 (3)
N3—C71.367 (3)N6—C271.372 (3)
C1—C71.506 (3)C21—C271.505 (3)
C1—C61.532 (3)C21—C221.533 (3)
C1—C21.535 (3)C21—C261.539 (3)
C2—C31.532 (3)C22—C231.527 (3)
C2—H2A0.9900C22—H22A0.9900
C2—H2B0.9900C22—H22B0.9900
C3—C41.528 (3)C23—C241.521 (3)
C3—H3A0.9900C23—H23A0.9900
C3—H3B0.9900C23—H23B0.9900
C4—C51.534 (3)C24—C251.531 (3)
C4—H4A0.9900C24—H24A0.9900
C4—H4B0.9900C24—H24B0.9900
C5—C61.526 (3)C25—C261.531 (3)
C5—H5A0.9900C25—H25A0.9900
C5—H5B0.9900C25—H25B0.9900
C6—H6A0.9900C26—H26A0.9900
C6—H6B0.9900C26—H26B0.9900
C7—C81.372 (3)C27—C281.373 (3)
C8—H80.9500C28—H280.9500
C9—C141.390 (3)C29—C341.396 (3)
C9—C101.398 (3)C29—C301.404 (3)
C10—C111.392 (3)C30—C311.389 (3)
C11—C121.383 (3)C31—C321.390 (3)
C11—H110.9500C31—H310.9500
C12—C131.397 (3)C32—C331.391 (3)
C12—H120.9500C32—H320.9500
C13—C141.379 (3)C33—C341.384 (3)
C13—H130.9500C33—H330.9500
C14—H140.9500C34—H340.9500
C15—C201.391 (3)C35—C361.392 (3)
C15—C161.391 (3)C35—C401.393 (3)
C16—C171.387 (3)C36—C371.382 (3)
C16—H160.9500C36—H360.9500
C17—C181.379 (4)C37—C381.390 (3)
C17—H170.9500C37—H370.9500
C18—C191.386 (4)C38—C391.391 (3)
C18—H180.9500C38—H380.9500
C19—C201.382 (4)C39—C401.391 (3)
C19—H190.9500C39—H390.9500
C20—H200.9500C40—H400.9500
C15—Se1—C1095.64 (9)C35—Se2—C3098.68 (9)
C1—O1—H1O109.5C21—O2—H2O109.5
N2—N1—C8110.56 (16)N5—N4—C28110.57 (17)
N2—N1—C9120.58 (16)N5—N4—C29119.73 (16)
C8—N1—C9128.83 (17)C28—N4—C29129.65 (17)
N3—N2—N1107.20 (16)N6—N5—N4107.29 (16)
N2—N3—C7109.58 (17)N5—N6—C27109.59 (17)
O1—C1—C7110.33 (16)O2—C21—C27110.34 (17)
O1—C1—C6105.90 (16)O2—C21—C22105.70 (16)
C7—C1—C6109.86 (16)C27—C21—C22110.48 (16)
O1—C1—C2110.90 (16)O2—C21—C26111.10 (17)
C7—C1—C2109.18 (16)C27—C21—C26108.70 (16)
C6—C1—C2110.64 (17)C22—C21—C26110.50 (18)
C3—C2—C1112.56 (17)C23—C22—C21112.61 (17)
C3—C2—H2A109.1C23—C22—H22A109.1
C1—C2—H2A109.1C21—C22—H22A109.1
C3—C2—H2B109.1C23—C22—H22B109.1
C1—C2—H2B109.1C21—C22—H22B109.1
H2A—C2—H2B107.8H22A—C22—H22B107.8
C4—C3—C2111.17 (17)C24—C23—C22111.29 (17)
C4—C3—H3A109.4C24—C23—H23A109.4
C2—C3—H3A109.4C22—C23—H23A109.4
C4—C3—H3B109.4C24—C23—H23B109.4
C2—C3—H3B109.4C22—C23—H23B109.4
H3A—C3—H3B108.0H23A—C23—H23B108.0
C3—C4—C5110.64 (19)C23—C24—C25110.2 (2)
C3—C4—H4A109.5C23—C24—H24A109.6
C5—C4—H4A109.5C25—C24—H24A109.6
C3—C4—H4B109.5C23—C24—H24B109.6
C5—C4—H4B109.5C25—C24—H24B109.6
H4A—C4—H4B108.1H24A—C24—H24B108.1
C6—C5—C4110.60 (18)C26—C25—C24110.7 (2)
C6—C5—H5A109.5C26—C25—H25A109.5
C4—C5—H5A109.5C24—C25—H25A109.5
C6—C5—H5B109.5C26—C25—H25B109.5
C4—C5—H5B109.5C24—C25—H25B109.5
H5A—C5—H5B108.1H25A—C25—H25B108.1
C5—C6—C1112.04 (16)C25—C26—C21112.70 (18)
C5—C6—H6A109.2C25—C26—H26A109.1
C1—C6—H6A109.2C21—C26—H26A109.1
C5—C6—H6B109.2C25—C26—H26B109.1
C1—C6—H6B109.2C21—C26—H26B109.1
H6A—C6—H6B107.9H26A—C26—H26B107.8
N3—C7—C8108.03 (18)N6—C27—C28107.76 (17)
N3—C7—C1122.24 (18)N6—C27—C21121.25 (18)
C8—C7—C1129.71 (18)C28—C27—C21130.79 (18)
N1—C8—C7104.62 (17)N4—C28—C27104.77 (17)
N1—C8—H8127.7N4—C28—H28127.6
C7—C8—H8127.7C27—C28—H28127.6
C14—C9—C10121.08 (19)C34—C29—C30121.17 (19)
C14—C9—N1118.83 (17)C34—C29—N4118.11 (17)
C10—C9—N1120.09 (18)C30—C29—N4120.71 (18)
C11—C10—C9118.36 (19)C31—C30—C29118.17 (19)
C11—C10—Se1120.90 (15)C31—C30—Se2121.99 (15)
C9—C10—Se1120.62 (16)C29—C30—Se2119.83 (16)
C12—C11—C10120.68 (19)C30—C31—C32120.90 (19)
C12—C11—H11119.7C30—C31—H31119.5
C10—C11—H11119.7C32—C31—H31119.5
C11—C12—C13120.2 (2)C31—C32—C33120.2 (2)
C11—C12—H12119.9C31—C32—H32119.9
C13—C12—H12119.9C33—C32—H32119.9
C14—C13—C12119.8 (2)C34—C33—C32120.1 (2)
C14—C13—H13120.1C34—C33—H33120.0
C12—C13—H13120.1C32—C33—H33120.0
C13—C14—C9119.76 (19)C33—C34—C29119.39 (18)
C13—C14—H14120.1C33—C34—H34120.3
C9—C14—H14120.1C29—C34—H34120.3
C20—C15—C16119.4 (2)C36—C35—C40119.97 (19)
C20—C15—Se1120.11 (16)C36—C35—Se2119.49 (16)
C16—C15—Se1120.51 (16)C40—C35—Se2120.46 (15)
C17—C16—C15119.9 (2)C37—C36—C35119.9 (2)
C17—C16—H16120.1C37—C36—H36120.1
C15—C16—H16120.1C35—C36—H36120.1
C18—C17—C16120.7 (2)C36—C37—C38120.6 (2)
C18—C17—H17119.6C36—C37—H37119.7
C16—C17—H17119.6C38—C37—H37119.7
C17—C18—C19119.3 (2)C37—C38—C39119.6 (2)
C17—C18—H18120.3C37—C38—H38120.2
C19—C18—H18120.3C39—C38—H38120.2
C20—C19—C18120.6 (2)C38—C39—C40120.1 (2)
C20—C19—H19119.7C38—C39—H39119.9
C18—C19—H19119.7C40—C39—H39119.9
C19—C20—C15120.1 (2)C39—C40—C35119.8 (2)
C19—C20—H20119.9C39—C40—H40120.1
C15—C20—H20119.9C35—C40—H40120.1
C8—N1—N2—N30.6 (2)C28—N4—N5—N61.1 (2)
C9—N1—N2—N3178.54 (16)C29—N4—N5—N6178.85 (17)
N1—N2—N3—C70.3 (2)N4—N5—N6—C271.0 (2)
O1—C1—C2—C364.5 (2)O2—C21—C22—C2368.3 (2)
C7—C1—C2—C3173.77 (17)C27—C21—C22—C23172.32 (17)
C6—C1—C2—C352.7 (2)C26—C21—C22—C2352.0 (2)
C1—C2—C3—C454.3 (2)C21—C22—C23—C2455.7 (2)
C2—C3—C4—C556.0 (2)C22—C23—C24—C2557.6 (2)
C3—C4—C5—C657.4 (2)C23—C24—C25—C2657.4 (3)
C4—C5—C6—C156.9 (2)C24—C25—C26—C2155.4 (3)
O1—C1—C6—C566.1 (2)O2—C21—C26—C2564.8 (2)
C7—C1—C6—C5174.77 (16)C27—C21—C26—C25173.55 (19)
C2—C1—C6—C554.2 (2)C22—C21—C26—C2552.2 (2)
N2—N3—C7—C80.0 (2)N5—N6—C27—C280.5 (2)
N2—N3—C7—C1178.91 (17)N5—N6—C27—C21175.98 (18)
O1—C1—C7—N3167.04 (17)O2—C21—C27—N6165.99 (17)
C6—C1—C7—N350.6 (2)C22—C21—C27—N649.5 (2)
C2—C1—C7—N370.8 (2)C26—C21—C27—N671.9 (2)
O1—C1—C7—C814.3 (3)O2—C21—C27—C2819.7 (3)
C6—C1—C7—C8130.7 (2)C22—C21—C27—C28136.3 (2)
C2—C1—C7—C8107.8 (2)C26—C21—C27—C28102.3 (2)
N2—N1—C8—C70.5 (2)N5—N4—C28—C270.8 (2)
C9—N1—C8—C7178.31 (17)C29—N4—C28—C27178.21 (18)
N3—C7—C8—N10.3 (2)N6—C27—C28—N40.2 (2)
C1—C7—C8—N1179.13 (18)C21—C27—C28—N4174.70 (19)
N2—N1—C9—C14138.21 (19)N5—N4—C29—C34134.48 (19)
C8—N1—C9—C1439.4 (3)C28—N4—C29—C3442.7 (3)
N2—N1—C9—C1042.2 (3)N5—N4—C29—C3045.7 (3)
C8—N1—C9—C10140.3 (2)C28—N4—C29—C30137.1 (2)
C14—C9—C10—C113.6 (3)C34—C29—C30—C313.7 (3)
N1—C9—C10—C11176.80 (17)N4—C29—C30—C31176.53 (17)
C14—C9—C10—Se1172.58 (15)C34—C29—C30—Se2175.30 (15)
N1—C9—C10—Se17.0 (3)N4—C29—C30—Se24.5 (2)
C9—C10—C11—C123.4 (3)C29—C30—C31—C322.6 (3)
Se1—C10—C11—C12172.75 (16)Se2—C30—C31—C32176.40 (15)
C10—C11—C12—C130.8 (3)C30—C31—C32—C330.0 (3)
C11—C12—C13—C141.7 (3)C31—C32—C33—C341.5 (3)
C12—C13—C14—C91.5 (3)C32—C33—C34—C290.4 (3)
C10—C9—C14—C131.2 (3)C30—C29—C34—C332.2 (3)
N1—C9—C14—C13179.22 (18)N4—C29—C34—C33177.99 (18)
C20—C15—C16—C170.3 (3)C40—C35—C36—C371.4 (3)
Se1—C15—C16—C17178.92 (18)Se2—C35—C36—C37178.26 (18)
C15—C16—C17—C180.4 (4)C35—C36—C37—C380.8 (4)
C16—C17—C18—C190.2 (4)C36—C37—C38—C390.2 (4)
C17—C18—C19—C201.0 (4)C37—C38—C39—C400.6 (4)
C18—C19—C20—C151.1 (4)C38—C39—C40—C350.0 (3)
C16—C15—C20—C190.4 (3)C36—C35—C40—C391.1 (3)
Se1—C15—C20—C19179.68 (18)Se2—C35—C40—C39177.84 (17)
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
C8—H8···N50.952.323.229 (3)159
C18—H18···O1i0.952.463.304 (3)148
C28—H28···N2ii0.952.373.262 (3)157
C34—H34···O2iii0.952.543.488 (3)173
Symmetry codes: (i) x+1, y+1, z; (ii) x1, y, z; (iii) x, y+2, z+1.
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
C8—H8···N50.952.323.229 (3)159
C18—H18···O1i0.952.463.304 (3)148
C28—H28···N2ii0.952.373.262 (3)157
C34—H34···O2iii0.952.543.488 (3)173
Symmetry codes: (i) x+1, y+1, z; (ii) x1, y, z; (iii) x, y+2, z+1.
 

Footnotes

Present address: Instituto Federal de Educação, Ciência e Tecnologia Farroupilha Rua Erechim, 860 - Bairro Planalto, 98280-000 Panambi, RS, Brazil.

Acknowledgements

The Brazilian agencies CNPq (305626/2013–2 to JZ-S), CAPES, FAPESC and FAPESP (2010/10855-5 to LRSC) are acknowledged for financial support.

References

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This is an open-access article distributed under the terms of the Creative Commons Attribution (CC-BY) Licence, which permits unrestricted use, distribution, and reproduction in any medium, provided the original authors and source are cited.

Journal logoCRYSTALLOGRAPHIC
COMMUNICATIONS
ISSN: 2056-9890
Volume 71| Part 3| March 2015| Pages o200-o201
doi:10.1107/S2056989015003242
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