Literature DB >> 21754308

Tetra-kis(μ-3-aza-niumylbenzoato)-κO:O,O';κO,O':O;κO:O'-bis-[tetra-aqua-neodymium(III)] hexa-chloride tetra-hydrate.

Meriem Benslimane, Hocine Merazig, Jean-Claude Daran.   

Abstract

The structure of the title compound, [Nd(2)(C(7)H(7)NO(2))(4)(H(2)O)(8)]Cl(6)·4H(2)O, consists of dimeric cationic units related by an inversion centre. The two Nd(III) atoms are linked by two bridging bidentate carboxyl-ate groups and two bidentate chelating bridging carboxyl-ate groups, with an Nd⋯Nd separation of 4.1259 (4) Å. Each Nd(III) atom is nine-coordin-ated by five O atoms from the carboxyl-ate groups of the zwitterionic azaniumylbenzoate ligands and four from water mol-ecules. They adopt a distorted tricapped trigonal-prismatic arrangement. The dihedral angle between the mean planes of the benzene ring and the carboxlate groups are 7.7 (6) and 24.4 (5)°. The two carboxyl-ate groups are almost perpendicular to one another with a dihedral angle of 84.0 (7)°, while the two benzene rings are inclined to one another by 81.8 (2)°. The mol-ecular packing is stabilized by O-H(water)⋯Cl, O-H(water)⋯N, N-H⋯Cl, N-H⋯O, and O-H(water)⋯O hydrogen bonds and π-π stacking inter-actions [centroid-centroid distance = 3.500 (3) Å] between symmetry-related benzene rings. All of the Cl(-) anions and the uncoordinated water molecules are disordered over two sets of sites with different occupancy ratios.

Entities:  

Year:  2011        PMID: 21754308      PMCID: PMC3089227          DOI: 10.1107/S1600536811012700

Source DB:  PubMed          Journal:  Acta Crystallogr Sect E Struct Rep Online        ISSN: 1600-5368


Related literature

For applications of lanthanide complexes, see: Yan et al. (1997 ▶); Scott & Horrocks (1992 ▶). For lanthanide complexes with aromatic carb­oxy­lic acids, see: Ma et al. (1994 ▶). For similar complexes, see: Qin et al. (2005 ▶, 2006 ▶); Sun et al. (2002 ▶); Benslimane et al. (2011 ▶).

Experimental

Crystal data

[Nd2(C7H7NO2)4(H2O)8]Cl6·4H2O M = 1265.92 Monoclinic, a = 12.1717 (1) Å b = 19.8544 (1) Å c = 10.5170 (1) Å β = 112.018 (1)° V = 2356.19 (4) Å3 Z = 2 Mo Kα radiation μ = 2.59 mm−1 T = 293 K 0.30 × 0.24 × 0.16 mm

Data collection

Enraf–Nonius CAD-4 diffractometer Absorption correction: multi-scan (Blessing, 1997 ▶) T min = 0.410, T max = 0.444 7192 measured reflections 6852 independent reflections 4724 reflections with I > 2σ(I) R int = 0.031 2 standard reflections every 60 min intensity decay: 3%

Refinement

R[F 2 > 2σ(F 2)] = 0.041 wR(F 2) = 0.096 S = 1.02 6852 reflections 300 parameters H-atom parameters constrained Δρmax = 0.81 e Å−3 Δρmin = −1.15 e Å−3 Data collection: CAD-4 EXPRESS (Enraf–Nonius, 1994 ▶); cell refinement: CAD-4 EXPRESS; data reduction: XCAD4 (Harms & Wocadlo, 1996 ▶); program(s) used to solve structure: SIR92 (Altomare et al., 1993 ▶); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008 ▶); molecular graphics: ORTEPIII (Burnett & Johnson, 1996 ▶) and ORTEP-3 for Windows (Farrugia, 1997 ▶); software used to prepare material for publication: SHELXL97. Crystal structure: contains datablocks I, global. DOI: 10.1107/S1600536811012700/su2265sup1.cif Structure factors: contains datablocks I. DOI: 10.1107/S1600536811012700/su2265Isup2.hkl Additional supplementary materials: crystallographic information; 3D view; checkCIF report
[Nd2(C7H7NO2)4(H2O)8]Cl6·4H2OF(000) = 1260
Mr = 1265.92Dx = 1.784 Mg m3
Monoclinic, P21/cMo Kα radiation, λ = 0.71073 Å
Hall symbol: -P 2ybcCell parameters from 7192 reflections
a = 12.1717 (1) Åθ = 1.0–30.0°
b = 19.8544 (1) ŵ = 2.59 mm1
c = 10.5170 (1) ÅT = 293 K
β = 112.018 (1)°Prism, violet
V = 2356.19 (4) Å30.30 × 0.24 × 0.16 mm
Z = 2
Enraf–Nonius CAD-4 diffractometerRint = 0.031
graphiteθmax = 30.0°, θmin = 1.8°
non–profiled ω/2τ scansh = −15→17
Absorption correction: multi-scan (Blessing, 1997)k = −27→0
Tmin = 0.410, Tmax = 0.444l = −14→0
7192 measured reflections2 standard reflections every 60 min
6852 independent reflections intensity decay: 3%
4724 reflections with I > 2σ(I)
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullSecondary atom site location: difference Fourier map
R[F2 > 2σ(F2)] = 0.041Hydrogen site location: inferred from neighbouring sites
wR(F2) = 0.096H-atom parameters constrained
S = 1.02w = 1/[σ2(Fo2) + (0.0201P)2] where P = (Fo2 + 2Fc2)/3
6852 reflections(Δ/σ)max = 0.002
300 parametersΔρmax = 0.81 e Å3
0 restraintsΔρmin = −1.15 e Å3
Geometry. Bond distances, angles etc. have been calculated using the rounded fractional coordinates. All su's are estimated from the variances of the (full) variance-covariance matrix. The cell esds are taken into account in the estimation of distances, angles and torsion angles
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 > 2sigma(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.
xyzUiso*/UeqOcc. (<1)
Nd10.67791 (2)0.47629 (1)0.58312 (3)0.0236 (1)
O10.5246 (3)0.48149 (15)0.3573 (4)0.0328 (10)
O1W0.8553 (3)0.53988 (16)0.7384 (4)0.0470 (13)
O20.5576 (2)0.38174 (14)0.5941 (4)0.0338 (12)
O2W0.7992 (3)0.51554 (18)0.4499 (5)0.0522 (14)
O30.6299 (3)0.59263 (14)0.5323 (4)0.0318 (10)
O3W0.7348 (3)0.37860 (16)0.4667 (5)0.0516 (16)
O40.6548 (3)0.50923 (15)0.7970 (4)0.0336 (13)
O4W0.8127 (3)0.40099 (16)0.7663 (5)0.0518 (16)
N10.1193 (4)0.2246 (2)0.5525 (7)0.063 (2)
N20.2428 (3)0.5776 (2)0.9569 (5)0.0432 (16)
C10.4479 (4)0.36950 (19)0.5480 (5)0.0264 (14)
C20.4066 (4)0.30648 (19)0.5946 (5)0.0265 (14)
C30.4840 (4)0.2636 (2)0.6904 (6)0.0334 (16)
C40.4435 (5)0.2104 (2)0.7436 (6)0.0422 (18)
C50.3240 (5)0.1978 (2)0.7016 (7)0.0450 (19)
C60.2491 (4)0.2391 (2)0.6034 (7)0.0410 (18)
C70.2861 (4)0.2928 (2)0.5493 (6)0.0354 (16)
C80.5479 (4)0.5265 (2)0.7622 (5)0.0258 (14)
C90.5114 (4)0.5576 (2)0.8680 (5)0.0266 (14)
C100.5955 (4)0.5888 (2)0.9817 (6)0.0315 (14)
C110.5631 (4)0.6181 (2)1.0799 (6)0.0391 (19)
C120.4470 (4)0.6159 (2)1.0698 (6)0.0410 (19)
C130.3648 (4)0.5835 (2)0.9597 (6)0.0332 (14)
C140.3941 (4)0.5556 (2)0.8575 (6)0.0300 (14)
O5W0.9028 (5)0.6248 (3)0.3390 (7)0.126 (3)
Cl10.08111 (11)0.07403 (8)0.44309 (19)0.0593 (6)
Cl20.93715 (13)0.40966 (10)0.3509 (2)0.0708 (7)
Cl3A0.8142 (3)0.22254 (14)0.4682 (4)0.0718 (12)0.750
O6WA0.0280 (8)0.2247 (5)0.7815 (11)0.081 (4)0.720
Cl3B0.7983 (15)0.2369 (6)0.5423 (16)0.068 (5)0.150
Cl3C0.8035 (14)0.2679 (7)0.731 (3)0.076 (8)0.100
O6WB0.042 (2)0.2654 (13)0.750 (3)0.101 (11)0.280
H010.674400.589800.990800.0380*
H1A0.091300.235800.616600.0940*
H1B0.107200.180900.533700.0940*
H1C0.082100.248400.476800.0940*
H20.619800.639601.154200.0470*
H020.424700.635901.136400.0490*
H2A0.239000.543201.009400.0650*
H2B0.192800.570500.871100.0650*
H2C0.223100.615400.988400.0650*
H30.565100.271000.719200.0400*
H040.336300.535500.782100.0360*
H40.497200.182600.808600.0500*
H50.295400.162500.738600.0540*
H70.231700.319800.483200.0420*
H110.924300.554200.720500.0700*
H120.843300.561200.482000.0790*
H130.787200.386700.420900.0770*
H140.798800.359000.771000.0500*
H210.877300.532000.817000.0700*
H220.836600.477500.441800.0790*
H230.740800.340600.494700.0770*
H240.888000.417700.817500.0500*
H15W0.944700.635300.293100.1890*
H25W0.863900.659600.344200.1890*
U11U22U33U12U13U23
Nd10.0204 (1)0.0285 (1)0.0211 (2)−0.0019 (1)0.0066 (1)−0.0007 (1)
O10.0360 (16)0.0417 (17)0.019 (2)−0.0037 (14)0.0085 (16)−0.0053 (16)
O1W0.0292 (16)0.069 (2)0.037 (3)−0.0175 (15)0.0057 (18)−0.0001 (19)
O20.0273 (15)0.0316 (16)0.040 (3)−0.0036 (12)0.0097 (16)0.0021 (15)
O2W0.064 (2)0.054 (2)0.052 (3)−0.0250 (18)0.037 (2)−0.020 (2)
O30.0314 (15)0.0278 (15)0.031 (2)−0.0023 (12)0.0057 (16)−0.0001 (14)
O3W0.073 (2)0.0372 (19)0.064 (4)0.0064 (17)0.048 (3)0.0026 (19)
O40.0321 (16)0.0421 (18)0.028 (3)0.0005 (13)0.0129 (17)−0.0040 (15)
O4W0.0349 (17)0.047 (2)0.056 (4)0.0004 (15)−0.003 (2)0.007 (2)
N10.047 (3)0.061 (3)0.082 (6)−0.023 (2)0.026 (3)0.004 (3)
N20.041 (2)0.055 (3)0.041 (3)0.0043 (19)0.024 (2)−0.002 (2)
C10.035 (2)0.0224 (19)0.025 (3)−0.0056 (16)0.015 (2)−0.0054 (18)
C20.031 (2)0.025 (2)0.024 (3)−0.0044 (16)0.011 (2)−0.0034 (18)
C30.037 (2)0.028 (2)0.031 (4)−0.0027 (17)0.008 (2)−0.007 (2)
C40.059 (3)0.028 (2)0.034 (4)0.000 (2)0.011 (3)0.003 (2)
C50.059 (3)0.035 (3)0.045 (4)−0.010 (2)0.024 (3)0.006 (2)
C60.037 (2)0.041 (3)0.050 (4)−0.012 (2)0.022 (3)−0.008 (3)
C70.032 (2)0.032 (2)0.040 (4)−0.0040 (18)0.011 (2)0.000 (2)
C80.032 (2)0.0269 (19)0.019 (3)−0.0076 (18)0.010 (2)−0.005 (2)
C90.036 (2)0.026 (2)0.017 (3)0.0001 (17)0.009 (2)0.0003 (18)
C100.032 (2)0.037 (2)0.025 (3)0.0012 (18)0.010 (2)−0.004 (2)
C110.045 (3)0.045 (3)0.026 (4)−0.006 (2)0.012 (3)−0.016 (2)
C120.051 (3)0.045 (3)0.028 (4)0.007 (2)0.016 (3)−0.010 (2)
C130.034 (2)0.037 (2)0.031 (3)0.0070 (19)0.015 (2)0.003 (2)
C140.034 (2)0.033 (2)0.021 (3)−0.0010 (18)0.008 (2)−0.001 (2)
O5W0.140 (5)0.124 (5)0.118 (7)0.037 (4)0.052 (5)0.024 (5)
Cl10.0401 (7)0.0667 (9)0.0549 (13)−0.0080 (6)−0.0009 (8)0.0083 (8)
Cl20.0441 (8)0.1218 (14)0.0541 (14)−0.0135 (8)0.0270 (9)−0.0161 (11)
Cl3A0.0611 (13)0.0457 (14)0.099 (3)−0.0090 (11)0.0190 (19)0.0111 (15)
O6WA0.058 (4)0.129 (8)0.060 (7)0.000 (5)0.027 (5)−0.006 (6)
Cl3B0.093 (10)0.023 (5)0.056 (11)0.000 (5)−0.008 (9)0.007 (5)
Cl3C0.071 (10)0.042 (8)0.12 (2)0.013 (7)0.042 (12)0.001 (9)
O6WB0.086 (15)0.15 (2)0.07 (2)0.007 (16)0.034 (14)0.029 (18)
Nd1—O12.411 (4)N1—H1A0.8900
Nd1—O1W2.506 (4)N2—H2A0.8900
Nd1—O22.410 (3)N2—H2B0.8900
Nd1—O2W2.510 (4)N2—H2C0.8900
Nd1—O32.394 (3)C1—C21.498 (6)
Nd1—O3W2.525 (4)C2—C31.384 (7)
Nd1—O42.458 (4)C2—C71.389 (7)
Nd1—O4W2.504 (4)C3—C41.371 (7)
Nd1—O1i2.886 (4)C4—C51.375 (9)
O1—C8i1.246 (6)C5—C61.365 (8)
O2—C11.262 (6)C6—C71.362 (7)
O3—C1i1.255 (6)C8—C91.479 (7)
O4—C81.260 (6)C9—C141.391 (8)
O1W—H110.9700C9—C101.394 (7)
O1W—H210.7800C10—C111.366 (8)
O2W—H121.0400C11—C121.378 (8)
O2W—H220.9000C12—C131.374 (8)
O3W—H230.8000C13—C141.370 (8)
O3W—H130.9500C3—H30.9300
O4W—H140.8600C4—H40.9300
O4W—H240.9300C5—H50.9300
O5W—H25W0.8500C7—H70.9300
O5W—H15W0.8500C10—H010.9300
N1—C61.494 (8)C11—H20.9300
N2—C131.479 (7)C12—H020.9300
N1—H1C0.8900C14—H040.9300
N1—H1B0.8900
O1—Nd1—O1W141.27 (11)C6—N1—H1C109.00
O1—Nd1—O279.67 (12)C6—N1—H1A110.00
O1—Nd1—O2W80.61 (14)C6—N1—H1B109.00
O1—Nd1—O372.82 (12)H1A—N1—H1B109.00
O1—Nd1—O3W78.87 (13)H1B—N1—H1C109.00
O1—Nd1—O4125.33 (13)H1A—N1—H1C110.00
O1—Nd1—O4W145.66 (11)H2B—N2—H2C110.00
O1—Nd1—O1i78.04 (12)H2A—N2—H2B109.00
O1W—Nd1—O2138.75 (12)C13—N2—H2A109.00
O1W—Nd1—O2W70.36 (14)C13—N2—H2B109.00
O1W—Nd1—O374.80 (12)H2A—N2—H2C109.00
O1W—Nd1—O3W112.16 (13)C13—N2—H2C110.00
O1W—Nd1—O468.64 (13)O2—C1—C2118.2 (4)
O1W—Nd1—O4W69.11 (12)O2—C1—O3i124.5 (4)
O1i—Nd1—O1W108.03 (11)O3i—C1—C2117.4 (4)
O2—Nd1—O2W139.79 (12)C3—C2—C7118.2 (4)
O2—Nd1—O3131.34 (12)C1—C2—C3122.1 (5)
O2—Nd1—O3W72.96 (12)C1—C2—C7119.5 (4)
O2—Nd1—O483.30 (12)C2—C3—C4121.4 (5)
O2—Nd1—O4W74.50 (12)C3—C4—C5120.5 (5)
O1i—Nd1—O268.41 (9)C4—C5—C6117.4 (5)
O2W—Nd1—O373.81 (13)N1—C6—C5118.2 (5)
O2W—Nd1—O3W69.04 (12)N1—C6—C7118.2 (5)
O2W—Nd1—O4136.16 (13)C5—C6—C7123.7 (5)
O2W—Nd1—O4W105.19 (14)C2—C7—C6118.8 (5)
O1i—Nd1—O2W139.46 (11)O1i—C8—O4121.5 (5)
O3—Nd1—O3W136.17 (14)O1i—C8—C9120.9 (5)
O3—Nd1—O481.11 (12)O4—C8—C9117.6 (4)
O3—Nd1—O4W141.52 (13)C10—C9—C14118.9 (5)
O1i—Nd1—O367.12 (11)C8—C9—C14121.2 (4)
O3W—Nd1—O4142.60 (12)C8—C9—C10120.0 (5)
O3W—Nd1—O4W72.23 (14)C9—C10—C11120.7 (5)
O1i—Nd1—O3W137.75 (11)C10—C11—C12120.5 (5)
O4—Nd1—O4W73.83 (13)C11—C12—C13118.8 (5)
O1i—Nd1—O447.46 (12)N2—C13—C14120.5 (5)
O1i—Nd1—O4W111.90 (12)C12—C13—C14122.0 (5)
Nd1—O1—Nd1i101.96 (13)N2—C13—C12117.6 (5)
Nd1—O1—C8i169.3 (3)C9—C14—C13119.2 (5)
Nd1i—O1—C8i85.2 (3)C2—C3—H3119.00
Nd1—O2—C1134.9 (3)C4—C3—H3119.00
Nd1—O3—C1i142.0 (3)C5—C4—H4120.00
Nd1—O4—C8105.5 (3)C3—C4—H4120.00
H11—O1W—H21107.00C4—C5—H5121.00
Nd1—O1W—H11128.00C6—C5—H5121.00
Nd1—O1W—H21117.00C6—C7—H7121.00
H12—O2W—H22123.00C2—C7—H7121.00
Nd1—O2W—H22102.00C9—C10—H01120.00
Nd1—O2W—H12115.00C11—C10—H01120.00
Nd1—O3W—H23123.00C12—C11—H2120.00
H13—O3W—H23111.00C10—C11—H2120.00
Nd1—O3W—H13118.00C11—C12—H02121.00
Nd1—O4W—H24117.00C13—C12—H02121.00
H14—O4W—H24119.00C9—C14—H04120.00
Nd1—O4W—H14123.00C13—C14—H04120.00
H15W—O5W—H25W108.00
O1W—Nd1—O1—Nd1i−103.98 (19)O4W—Nd1—O4—C8−146.0 (3)
O2—Nd1—O1—Nd1i69.90 (11)O1i—Nd1—O4—C8−3.6 (2)
O2W—Nd1—O1—Nd1i−145.32 (12)Nd1—O1i—C8—C9173.3 (4)
O3—Nd1—O1—Nd1i−69.49 (12)Nd1—O1i—C8—O4−5.9 (4)
O3W—Nd1—O1—Nd1i144.37 (13)Nd1—O2—C1—O3i6.6 (8)
O4—Nd1—O1—Nd1i−4.17 (16)Nd1—O2—C1—C2−171.7 (3)
O4W—Nd1—O1—Nd1i111.5 (2)Nd1i—O3i—C1—C2142.4 (4)
O1i—Nd1—O1—Nd1i0.00 (9)Nd1i—O3i—C1—O2−35.9 (9)
O1i—Nd1i—O1—Nd10.00 (11)Nd1—O4—C8—O1i7.1 (5)
O1Wi—Nd1i—O1—Nd1−140.33 (11)Nd1—O4—C8—C9−172.1 (3)
O2i—Nd1i—O1—Nd183.50 (13)O3i—C1—C2—C7−0.6 (7)
O2Wi—Nd1i—O1—Nd1−59.7 (2)O2—C1—C2—C7177.8 (5)
O3i—Nd1i—O1—Nd1−76.21 (13)O2—C1—C2—C33.0 (7)
O3Wi—Nd1i—O1—Nd158.2 (2)O3i—C1—C2—C3−175.4 (5)
O4i—Nd1i—O1—Nd1−175.39 (17)C1—C2—C3—C4172.4 (5)
O4Wi—Nd1i—O1—Nd1145.54 (12)C1—C2—C7—C6−173.3 (5)
O1—Nd1—O2—C1−36.4 (4)C7—C2—C3—C4−2.4 (8)
O1W—Nd1—O2—C1137.8 (4)C3—C2—C7—C61.7 (7)
O2W—Nd1—O2—C1−98.2 (5)C2—C3—C4—C50.7 (8)
O3—Nd1—O2—C119.5 (5)C3—C4—C5—C61.6 (8)
O3W—Nd1—O2—C1−117.8 (5)C4—C5—C6—N1177.7 (5)
O4—Nd1—O2—C191.4 (4)C4—C5—C6—C7−2.4 (9)
O4W—Nd1—O2—C1166.5 (5)C5—C6—C7—C20.7 (9)
O1i—Nd1—O2—C144.7 (4)N1—C6—C7—C2−179.3 (5)
O1—Nd1—O3—C1i15.9 (5)O4—C8—C9—C1023.0 (6)
O1W—Nd1—O3—C1i174.4 (6)O1i—C8—C9—C1424.7 (6)
O2—Nd1—O3—C1i−42.6 (6)O4—C8—C9—C14−156.1 (4)
O2W—Nd1—O3—C1i100.9 (6)O1i—C8—C9—C10−156.2 (4)
O3W—Nd1—O3—C1i68.0 (6)C8—C9—C10—C11179.6 (4)
O4—Nd1—O3—C1i−115.5 (6)C14—C9—C10—C11−1.3 (7)
O4W—Nd1—O3—C1i−165.0 (5)C8—C9—C14—C13178.3 (4)
O1i—Nd1—O3—C1i−68.1 (6)C10—C9—C14—C13−0.8 (6)
O1—Nd1—O4—C82.0 (3)C9—C10—C11—C121.5 (7)
O1W—Nd1—O4—C8140.5 (3)C10—C11—C12—C130.3 (7)
O2—Nd1—O4—C8−70.3 (3)C11—C12—C13—N2175.6 (4)
O2W—Nd1—O4—C8118.7 (3)C11—C12—C13—C14−2.5 (7)
O3—Nd1—O4—C863.5 (3)N2—C13—C14—C9−175.3 (4)
O3W—Nd1—O4—C8−120.5 (3)C12—C13—C14—C92.7 (7)
D—H···AD—HH···AD···AD—H···A
N1—H1A···O6WA0.892.163.007 (12)160
N1—H1B···Cl10.892.303.174 (5)168
N1—H1C···O6WAii0.891.982.828 (12)159
N2—H2A···O4iii0.892.222.967 (6)141
N2—H2B···Cl2i0.892.313.166 (5)161
N2—H2C···Cl3Aiv0.892.263.129 (5)167
O1W—H11···Cl2v0.972.213.170 (4)172
O2W—H12···O5W1.042.282.960 (7)121
O2W—H12···Cl2v1.042.653.443 (5)132
O3W—H13···Cl20.952.263.190 (5)169
O4W—H14···Cl3Avi0.862.583.240 (5)134
O5W—H15W···Cl1vii0.852.683.208 (7)122
O1W—H21···Cl1iv0.782.523.215 (4)148
O2W—H22···Cl20.902.263.104 (4)156
O3W—H23···Cl3A0.802.563.244 (4)144
O4W—H24···Cl1viii0.932.233.134 (5)163
O5W—H25W···N1i0.852.523.247 (8)144
C10—H01···Cl1iv0.932.813.724 (6)169
C14—H04···O2Wi0.932.593.504 (7)170
CgICgJCgI···CgJaCgI···P(J)bCgJ···P(I)cSlippage
Cg1Cg1ii3.499 (2)3.2720 (18)3.2721 (18)1.240
Table 1

Hydrogen-bond geometry (Å, °)

D—H⋯AD—HH⋯ADAD—H⋯A
N1—H1A⋯O6WA0.892.163.007 (12)160
N1—H1B⋯Cl10.892.303.174 (5)168
N1—H1C⋯O6WAi0.891.982.828 (12)159
N2—H2A⋯O4ii0.892.222.967 (6)141
N2—H2B⋯Cl2iii0.892.313.166 (5)161
N2—H2C⋯Cl3Aiv0.892.263.129 (5)167
O1W—H11⋯Cl2v0.972.213.170 (4)172
O2W—H12⋯O5W1.042.282.960 (7)121
O2W—H12⋯Cl2v1.042.653.443 (5)132
O3W—H13⋯Cl20.952.263.190 (5)169
O4W—H14⋯Cl3Avi0.862.583.240 (5)134
O5W—H15W⋯Cl1vii0.852.683.208 (7)122
O1W—H21⋯Cl1iv0.782.523.215 (4)148
O2W—H22⋯Cl20.902.263.104 (4)156
O3W—H23⋯Cl3A0.802.563.244 (4)144
O4W—H24⋯Cl1viii0.932.233.134 (5)163
O5W—H25W⋯N1iii0.852.523.247 (8)144
C10—H01⋯Cl1iv0.932.813.724 (6)169
C14—H04⋯O2Wiii0.932.593.504 (7)170

Symmetry codes: (i) ; (ii) ; (iii) ; (iv) ; (v) ; (vi) ; (vii) ; (viii) .

  3 in total

1.  A short history of SHELX.

Authors:  George M Sheldrick
Journal:  Acta Crystallogr A       Date:  2007-12-21       Impact factor: 2.290

2.  Lanthanide ion luminescence as a probe of DNA structure. 2. Non- guanine-containing oligomers and nucleotides.

Authors:  S L Klakamp; W D Horrocks
Journal:  J Inorg Biochem       Date:  1992-05-15       Impact factor: 4.155

3.  Tetra-kis(μ-3-aza-niumylbenzoato)-κO:O,O';κO,O':O;κO:O'-bis-[triaqua-chloridolanthanum(III)] tetra-chloride dihydrate.

Authors:  Meriem Benslimane; Hocine Merazig; Jean-Claude Daran
Journal:  Acta Crystallogr Sect E Struct Rep Online       Date:  2010-12-24
  3 in total

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