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Acta Cryst. (2016). C72, 1002-1006
https://doi.org/10.1107/S205322961601874X
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A one-dimensional zinc(II) coordination polymer with a three-dimensional supra­molecular architecture incorporating 1-[(1H-benzimidazol-2-yl)meth­yl]-1H-tetra­zole and adipate

C.-L. Liu, Q.-Y. Huang and X.-R. Meng
The synthesis of coordination polymers or metal–organic frameworks (MOFs) has attracted considerable inter­est owing to the inter­esting structures and potential applications of these compounds. It is still a challenge to predict the exact structures and compositions of the final products. A new one-dimensional coordination polymer, catena-poly[[[bis­{1-[(1H-benzimidazol-2-yl)meth­yl]-1H-tetra­zole-κN3}zinc(II)]-μ-hexane-1,6-di­carboxyl­ato-κ4O1,O1′:O6,O6′] monohydrate], {[Zn(C6H8O4)(C9H8N6)2]·H2O}n, has been synthesized by the reaction of Zn(Ac)2 (Ac is acetate) with 1-[(1H-benzimidazol-2-yl)meth­yl]-1H-tetra­zole (bimt) and adipic acid (H2adi) at room temperature. In the polymer, each ZnII ion exhibits an irregular octa­hedral ZnN2O4 coordination geometry and is coordinated by two N atoms from two symmetry-related bimt ligands and four O atoms from two symmetry-related dianionic adipate ligands. ZnII ions are connected by adipate ligands into a one-dimensional chain which runs parallel to the c axis. The bimt ligands coordinate to the ZnII ions in a monodentate mode on both sides of the main chain. In the crystal, the one-dimensional chains are further connected through N—H...O hydrogen bonds, leading to a three-dimensional supra­molecular architecture. In addition, the title polymer exhibits fluorescence, with emissions at 334 and 350 nm in the solid state at room temperature.
Keywords: one-dimensional coordination polymer; zinc(II); supra­molecular architecture; benzimidazole; crystal engineering; tetra­zole; adipate; crystal structure; fluorescence.
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Supporting information

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S205322961601874X/cu3103sup1.cif
Contains datablocks I, Huang

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S205322961601874X/cu3103Isup2.hkl
Contains datablock I

pdf

Portable Document Format (PDF) file https://doi.org/10.1107/S205322961601874X/cu3103sup3.pdf
Measured and simulated PXRD patterns of the title polymer

CCDC reference: 1518808

Computing details top

Data collection: CrystalClear (Rigaku/MSC, 2004); cell refinement: CrystalClear (Rigaku/MSC, 2004); data reduction: CrystalClear (Rigaku/MSC, 2004); program(s) used to solve structure: SHELXS97 (Sheldrick, 2008); program(s) used to refine structure: SHELXL2014 (Sheldrick, 2015); molecular graphics: DIAMOND (Brandenburg & Putz, 2005); software used to prepare material for publication: publCIF (Westrip, 2010).

catena-Poly[[[bis{1-[(1H-benzimidazol-2-yl)methyl]-1H-tetrazole-κN3}zinc(II)]-µ-hexane-1,6-dicarboxylato-κ4O1,O1':O6,O6'] monohydrate] top
Crystal data top
[Zn(C6H8O4)(C9H8N6)2]·H2ODx = 1.535 Mg m3
Mr = 627.94Mo Kα radiation, λ = 0.71073 Å
Orthorhombic, PbcnCell parameters from 5974 reflections
a = 13.861 (3) Åθ = 2.2–27.9°
b = 10.521 (2) ŵ = 0.96 mm1
c = 18.634 (4) ÅT = 293 K
V = 2717.4 (10) Å3Prism, colourless
Z = 40.20 × 0.18 × 0.15 mm
F(000) = 1296
Data collection top
Rigaku Saturn
diffractometer		2673 independent reflections
Radiation source: fine-focus sealed tube2546 reflections with I > 2σ(I)
Detector resolution: 28.5714 pixels mm-1Rint = 0.042
ω scansθmax = 26.0°, θmin = 2.4°
Absorption correction: multi-scan
(CrystalClear; Rigaku/MSC, 2004)		h = 1717
Tmin = 0.925, Tmax = 1.000k = 1212
27831 measured reflectionsl = 2122
Refinement top
Refinement on F20 restraints
Least-squares matrix: fullHydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.052H-atom parameters constrained
wR(F2) = 0.123 w = 1/[σ2(Fo2) + (0.0507P)2 + 1.5835P]
where P = (Fo2 + 2Fc2)/3
S = 1.27(Δ/σ)max < 0.001
2673 reflectionsΔρmax = 0.47 e Å3
191 parametersΔρmin = 0.48 e Å3
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.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/Ueq
Zn10.00001.10000 (4)0.25000.03440 (18)
N10.10741 (16)1.2218 (2)0.28389 (13)0.0388 (5)
N20.24873 (17)1.3079 (2)0.31075 (13)0.0448 (6)
H2C0.31011.32000.31150.054*
N30.24810 (17)1.1944 (2)0.14836 (13)0.0403 (6)
N40.2494 (2)1.3216 (3)0.14053 (17)0.0606 (8)
N50.2430 (2)1.3430 (3)0.07250 (17)0.0617 (8)
N60.2370 (3)1.2344 (3)0.03558 (16)0.0656 (8)
O10.04808 (14)1.0331 (2)0.34511 (10)0.0429 (5)
O20.07653 (17)0.9220 (2)0.31186 (12)0.0555 (6)
C10.2400 (3)1.1446 (3)0.0840 (2)0.0611 (10)
H1A0.23701.05800.07420.073*
C20.2511 (2)1.1349 (3)0.21933 (18)0.0445 (7)
H2A0.21911.05300.21770.053*
H2B0.31761.12130.23360.053*
C30.2022 (2)1.2187 (3)0.27242 (16)0.0382 (6)
C40.0926 (2)1.3222 (3)0.33160 (15)0.0427 (7)
C50.0083 (3)1.3704 (4)0.3608 (2)0.0592 (10)
H5A0.05141.33410.35070.071*
C60.0165 (3)1.4738 (4)0.4051 (2)0.0720 (12)
H6A0.03901.50950.42470.086*
C70.1065 (3)1.5270 (4)0.4216 (2)0.0702 (11)
H7A0.10911.59660.45230.084*
C80.1904 (3)1.4800 (3)0.39408 (18)0.0590 (9)
H8A0.25001.51550.40530.071*
C90.1819 (2)1.3760 (3)0.34832 (16)0.0436 (7)
C100.0124 (2)0.9458 (3)0.35693 (16)0.0404 (7)
C110.0069 (3)0.8708 (3)0.4254 (2)0.0544 (9)
H11A0.03450.79770.41750.065*
H11B0.07080.83910.43670.065*
C120.0308 (3)0.9436 (3)0.48974 (17)0.0550 (8)
H12A0.03470.88620.53040.066*
H12B0.09560.97310.47930.066*
O30.00000.6620 (8)0.25000.167 (3)
H1W0.04750.70970.26050.200*
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Zn10.0317 (3)0.0406 (3)0.0309 (3)0.0000.00122 (17)0.000
N10.0363 (13)0.0432 (14)0.0369 (13)0.0039 (10)0.0012 (10)0.0043 (11)
N20.0378 (13)0.0474 (14)0.0492 (15)0.0102 (11)0.0074 (11)0.0001 (12)
N30.0391 (13)0.0326 (12)0.0494 (14)0.0046 (10)0.0050 (11)0.0020 (11)
N40.083 (2)0.0375 (15)0.0611 (19)0.0088 (15)0.0078 (16)0.0021 (13)
N50.086 (2)0.0421 (15)0.0573 (18)0.0065 (15)0.0122 (15)0.0043 (14)
N60.096 (2)0.0489 (17)0.0523 (18)0.0061 (16)0.0028 (16)0.0000 (14)
O10.0417 (11)0.0481 (12)0.0390 (11)0.0091 (10)0.0011 (9)0.0058 (9)
O20.0506 (13)0.0708 (16)0.0450 (13)0.0227 (11)0.0008 (11)0.0014 (11)
C10.091 (3)0.0354 (17)0.056 (2)0.0050 (18)0.0009 (19)0.0032 (15)
C20.0386 (16)0.0420 (16)0.0529 (18)0.0027 (13)0.0010 (14)0.0045 (14)
C30.0377 (15)0.0378 (15)0.0391 (15)0.0026 (12)0.0035 (12)0.0044 (12)
C40.0460 (17)0.0443 (17)0.0377 (15)0.0027 (14)0.0033 (12)0.0033 (13)
C50.052 (2)0.072 (2)0.054 (2)0.0040 (17)0.0024 (15)0.0194 (19)
C60.079 (3)0.076 (3)0.060 (2)0.016 (2)0.002 (2)0.021 (2)
C70.107 (3)0.053 (2)0.050 (2)0.005 (2)0.012 (2)0.0170 (17)
C80.078 (3)0.0498 (19)0.0491 (19)0.0132 (18)0.0156 (18)0.0035 (16)
C90.0546 (19)0.0399 (16)0.0364 (16)0.0062 (14)0.0068 (14)0.0026 (12)
C100.0428 (17)0.0447 (16)0.0337 (15)0.0034 (13)0.0052 (12)0.0007 (13)
C110.070 (2)0.0477 (19)0.045 (2)0.0085 (16)0.0038 (15)0.0081 (15)
C120.067 (2)0.062 (2)0.0356 (17)0.0069 (18)0.0004 (15)0.0113 (15)
O30.149 (7)0.167 (7)0.184 (8)0.0000.019 (5)0.000
Geometric parameters (Å, º) top
Zn1—O12.020 (2)C2—C31.488 (4)
Zn1—O1i2.020 (2)C2—H2A0.9700
Zn1—N1i2.064 (2)C2—H2B0.9700
Zn1—N12.064 (2)C4—C51.385 (5)
Zn1—O2i2.441 (2)C4—C91.396 (4)
Zn1—O22.441 (2)C5—C61.371 (6)
Zn1—C10i2.575 (3)C5—H5A0.9300
Zn1—C102.575 (3)C6—C71.401 (6)
N1—C31.332 (4)C6—H6A0.9300
N1—C41.396 (4)C7—C81.364 (6)
N2—C31.344 (4)C7—H7A0.9300
N2—C91.364 (4)C8—C91.392 (4)
N2—H2C0.8600C8—H8A0.9300
N3—C11.314 (4)C10—C111.502 (5)
N3—N41.347 (4)C11—C121.516 (5)
N3—C21.463 (4)C11—H11A0.9700
N4—N51.291 (4)C11—H11B0.9700
N5—N61.336 (4)C12—C12ii1.511 (7)
N6—C11.307 (4)C12—H12A0.9700
O1—C101.263 (4)C12—H12B0.9700
O2—C101.248 (4)O3—H1W0.8501
C1—H1A0.9300
O1—Zn1—O1i139.24 (12)N3—C2—C3109.6 (2)
O1—Zn1—N1i104.29 (9)N3—C2—H2A109.8
O1i—Zn1—N1i100.71 (9)C3—C2—H2A109.8
O1—Zn1—N1100.71 (9)N3—C2—H2B109.8
O1i—Zn1—N1104.29 (9)C3—C2—H2B109.8
N1i—Zn1—N1103.21 (14)H2A—C2—H2B108.2
O1—Zn1—O2i90.22 (8)N1—C3—N2111.8 (3)
O1i—Zn1—O2i57.45 (8)N1—C3—C2124.8 (3)
N1i—Zn1—O2i91.05 (9)N2—C3—C2123.2 (3)
N1—Zn1—O2i159.13 (9)C5—C4—N1130.6 (3)
O1—Zn1—O257.45 (8)C5—C4—C9120.8 (3)
O1i—Zn1—O290.22 (8)N1—C4—C9108.6 (3)
N1i—Zn1—O2159.13 (9)C6—C5—C4117.2 (3)
N1—Zn1—O291.05 (9)C6—C5—H5A121.4
O2i—Zn1—O279.83 (12)C4—C5—H5A121.4
O1—Zn1—C10i115.94 (9)C5—C6—C7121.5 (4)
O1i—Zn1—C10i28.81 (9)C5—C6—H6A119.2
N1i—Zn1—C10i96.10 (10)C7—C6—H6A119.2
N1—Zn1—C10i132.55 (9)C8—C7—C6122.1 (3)
O2i—Zn1—C10i28.65 (8)C8—C7—H7A118.9
O2—Zn1—C10i84.90 (9)C6—C7—H7A118.9
O1—Zn1—C1028.80 (9)C7—C8—C9116.3 (3)
O1i—Zn1—C10115.94 (9)C7—C8—H8A121.8
N1i—Zn1—C10132.55 (9)C9—C8—H8A121.8
N1—Zn1—C1096.10 (10)N2—C9—C8132.1 (3)
O2i—Zn1—C1084.90 (9)N2—C9—C4105.9 (3)
O2—Zn1—C1028.65 (8)C8—C9—C4122.0 (3)
C10i—Zn1—C10101.90 (14)O2—C10—O1120.1 (3)
C3—N1—C4105.4 (2)O2—C10—C11120.2 (3)
C3—N1—Zn1130.4 (2)O1—C10—C11119.8 (3)
C4—N1—Zn1123.99 (19)O2—C10—Zn169.70 (17)
C3—N2—C9108.3 (2)O1—C10—Zn150.39 (14)
C3—N2—H2C125.9C11—C10—Zn1170.0 (2)
C9—N2—H2C125.9C10—C11—C12115.1 (3)
C1—N3—N4107.4 (3)C10—C11—H11A108.5
C1—N3—C2131.1 (3)C12—C11—H11A108.5
N4—N3—C2121.5 (3)C10—C11—H11B108.5
N5—N4—N3106.2 (3)C12—C11—H11B108.5
N4—N5—N6111.1 (3)H11A—C11—H11B107.5
C1—N6—N5105.2 (3)C12ii—C12—C11113.7 (4)
C10—O1—Zn1100.81 (18)C12ii—C12—H12A108.8
C10—O2—Zn181.65 (18)C11—C12—H12A108.8
N6—C1—N3110.1 (3)C12ii—C12—H12B108.8
N6—C1—H1A124.9C11—C12—H12B108.8
N3—C1—H1A124.9H12A—C12—H12B107.7
C1—N3—N4—N50.5 (4)N1—C4—C5—C6178.0 (4)
C2—N3—N4—N5178.0 (3)C9—C4—C5—C61.3 (6)
N3—N4—N5—N60.3 (4)C4—C5—C6—C71.4 (7)
N4—N5—N6—C10.0 (4)C5—C6—C7—C80.7 (7)
N5—N6—C1—N30.3 (4)C6—C7—C8—C90.2 (6)
N4—N3—C1—N60.5 (4)C3—N2—C9—C8177.9 (3)
C2—N3—C1—N6177.7 (3)C3—N2—C9—C40.9 (3)
C1—N3—C2—C3145.4 (3)C7—C8—C9—N2178.4 (3)
N4—N3—C2—C331.5 (4)C7—C8—C9—C40.2 (5)
C4—N1—C3—N21.5 (3)C5—C4—C9—N2179.5 (3)
Zn1—N1—C3—N2172.89 (19)N1—C4—C9—N20.0 (3)
C4—N1—C3—C2173.7 (3)C5—C4—C9—C80.6 (5)
Zn1—N1—C3—C212.0 (4)N1—C4—C9—C8178.9 (3)
C9—N2—C3—N11.5 (3)Zn1—O2—C10—O11.9 (3)
C9—N2—C3—C2173.7 (3)Zn1—O2—C10—C11178.1 (3)
N3—C2—C3—N183.7 (3)Zn1—O1—C10—O22.3 (3)
N3—C2—C3—N290.9 (3)Zn1—O1—C10—C11177.7 (3)
C3—N1—C4—C5178.5 (4)O2—C10—C11—C12148.2 (3)
Zn1—N1—C4—C56.6 (5)O1—C10—C11—C1231.7 (5)
C3—N1—C4—C90.9 (3)Zn1—C10—C11—C1221.4 (15)
Zn1—N1—C4—C9173.92 (19)C10—C11—C12—C12ii61.4 (5)
Symmetry codes: (i) x, y, z+1/2; (ii) x, y+2, z+1.
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
O3—H1W···O20.852.463.153 (8)139
N2—H2C···O2iii0.861.902.703 (3)154
Symmetry code: (iii) x1/2, y+1/2, z.
 

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