Literature DB >> 21587452

Bis(9-amino-acridinium) bis-(pyridine-2,6-dicarboxyl-ato)cuprate(II) trihydrate.

Zohreh Derikvand, Jafar Attar Gharamaleki, Helen Stoeckli-Evans.

Abstract

The asymmetric unit of the title compound, (C(13)H(11)N(2))(2)[Cu(C(7)H(3)NO(4))(2)]·3H(2)O, consists of one [Cu(pydc)(2)](2-) dianion (pydc is pyridine-2,6-dicarboxyl-ate), two 9-amino-acridinum monocations and three uncoordinated water mol-ecules. The Cu(II) atom is coordinated by two pydc dianions acting as tridentate ligands, and forming five-membered chelate rings with copper(II) as the central atom. The Cu(II) atom is surrounded by four O atoms in the equatorial plane and two pyridine N atoms in axial positions, resulting in a distorted octa-hedral coordination geometry. In the crystal, there are two types of O-H⋯O and N-H⋯O hydrogen-bonding synthons linking the anionic and cationic fragments and the water mol-ecules, namely R(4) (4)(16), and R(4) (2)(8). There are also weak C-H⋯O hydrogen bonds, π-π stacking inter-actions [the shortest centroid-centroid distance is 3.350 (2) Å], and a C-O⋯π inter-action [O⋯centroid distance = 3.564 (2) Å], which connect the various components into a three-dimensional network.

Entities: CellLine Chemical Disease Species

Year: 2010 PMID： 21587452 PMCID： PMC2983232 DOI： 10.1107/S160053681003059X

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

Related literature

For complexes containing a copper(II) atom, pyridine-2,6-dicarboxlic acid and various bases, see: Yenikaya et al. (2009 ▶); Zafer Yeşilel et al. (2010 ▶); Du et al. (2006 ▶); Aghabozorg et al. (2006 ▶, 2009 ▶). For the crystal structure of (aacrH)2[Ni(pydc)2]·3H2O, (aacr = 9-aminoacridine), see: Derikvand & Olmstead (2010 ▶). For graph-set analysis, see: Bernstein et al. (1995 ▶). An independent determination of the title compound is reported in the following paper by Aghabozorg et al. (2010 ▶).

Experimental

Crystal data

(C13H11N2)2[Cu(C7H3NO4)2]·3H2O M = 838.27 Triclinic, a = 10.8760 (16) Å b = 13.283 (2) Å c = 13.9820 (19) Å α = 102.056 (12)° β = 103.785 (11)° γ = 105.573 (12)° V = 1807.6 (5) Å3 Z = 2 Mo Kα radiation μ = 0.68 mm−1 T = 223 K 0.25 × 0.19 × 0.12 mm

Data collection

Stoe IPDS 2 diffractometer Absorption correction: multi-scan (MULscanABS; Spek, 2009 ▶) T min = 0.845, T max = 0.920 19456 measured reflections 6819 independent reflections 4572 reflections with I > 2σ(I) R int = 0.060

Refinement

R[F 2 > 2σ(F 2)] = 0.038 wR(F 2) = 0.073 S = 0.87 6819 reflections 571 parameters H atoms treated by a mixture of independent and constrained refinement Δρmax = 0.38 e Å−3 Δρmin = −0.40 e Å−3 Data collection: X-AREA (Stoe & Cie, 2006 ▶); cell refinement: X-AREA; data reduction: X-RED32 (Stoe & Cie, 2006 ▶); program(s) used to solve structure: SHELXS97 (Sheldrick, 2008 ▶); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008 ▶); molecular graphics: PLATON (Spek, 2009 ▶); software used to prepare material for publication: SHELXL97 and PLATON (Spek, 2009 ▶). Crystal structure: contains datablocks I, global. DOI: 10.1107/S160053681003059X/vm2038sup1.cif Structure factors: contains datablocks I. DOI: 10.1107/S160053681003059X/vm2038Isup2.hkl Additional supplementary materials: crystallographic information; 3D view; checkCIF report

(C₁₃H₁₁N₂)₂[Cu(C₇H₃NO₄)₂]·3H₂O	Z = 2
M_r = 838.27	F(000) = 866
Triclinic, P1	D_x = 1.540 Mg m⁻³
Hall symbol: -P 1	Mo Kα radiation, λ = 0.71073 Å
a = 10.8760 (16) Å	Cell parameters from 10347 reflections
b = 13.283 (2) Å	θ = 1.6–26.1°
c = 13.9820 (19) Å	µ = 0.68 mm⁻¹
α = 102.056 (12)°	T = 223 K
β = 103.785 (11)°	Plate, green
γ = 105.573 (12)°	0.25 × 0.19 × 0.12 mm
V = 1807.6 (5) Å³

Stoe IPDS 2 diffractometer	6819 independent reflections
Radiation source: fine-focus sealed tube	4572 reflections with I > 2σ(I)
graphite	R_int = 0.060
φ + ω scans	θ_max = 25.8°, θ_min = 1.6°
Absorption correction: multi-scan (MULscanABS; Spek, 2009)	h = −13→13
T_min = 0.845, T_max = 0.920	k = −16→15
19456 measured reflections	l = −17→17

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) = 0.073	H atoms treated by a mixture of independent and constrained refinement
S = 0.87	w = 1/[σ²(F_o²) + (0.0307P)²] where P = (F_o² + 2F_c²)/3
6819 reflections	(Δ/σ)_max = 0.001
571 parameters	Δρ_max = 0.38 e Å⁻³
0 restraints	Δρ_min = −0.40 e Å⁻³

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 e.s.d.'s 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 > 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	U_iso*/U_eq
Cu1	0.85975 (4)	0.23585 (3)	0.58073 (2)	0.0256 (1)
O1	0.7445 (2)	0.20489 (15)	0.67478 (13)	0.0360 (6)
O2	0.5978 (2)	0.06732 (17)	0.70104 (14)	0.0433 (7)
O3	0.95569 (19)	0.20720 (14)	0.47238 (12)	0.0323 (6)
O4	0.9737 (2)	0.07042 (15)	0.35947 (13)	0.0382 (6)
O5	0.69468 (19)	0.28229 (14)	0.47403 (13)	0.0367 (6)
O6	0.64662 (19)	0.43248 (15)	0.45922 (13)	0.0337 (6)
O7	1.06223 (19)	0.28284 (15)	0.70913 (12)	0.0332 (6)
O8	1.2315 (2)	0.43696 (17)	0.80731 (14)	0.0464 (7)
N1	0.7888 (2)	0.08032 (17)	0.53178 (14)	0.0257 (7)
N2	0.9302 (2)	0.39729 (16)	0.61666 (14)	0.0223 (6)
C1	0.6994 (3)	0.0270 (2)	0.57121 (18)	0.0276 (8)
C2	0.6431 (3)	−0.0846 (2)	0.5344 (2)	0.0363 (9)
C3	0.6827 (3)	−0.1405 (2)	0.4588 (2)	0.0392 (10)
C4	0.7773 (3)	−0.0835 (2)	0.42055 (19)	0.0323 (9)
C5	0.8276 (3)	0.0285 (2)	0.45818 (17)	0.0262 (8)
C6	0.6768 (3)	0.1051 (2)	0.65601 (18)	0.0312 (9)
C7	0.9271 (3)	0.1077 (2)	0.42669 (17)	0.0271 (8)
C8	0.8614 (2)	0.45192 (19)	0.56787 (16)	0.0210 (7)
C9	0.9172 (3)	0.5622 (2)	0.58274 (18)	0.0258 (8)
C10	1.0461 (3)	0.6180 (2)	0.64911 (18)	0.0286 (9)
C11	1.1150 (3)	0.5620 (2)	0.70013 (18)	0.0269 (8)
C12	1.0549 (3)	0.4513 (2)	0.68252 (17)	0.0237 (8)
C13	0.7221 (3)	0.3827 (2)	0.49439 (17)	0.0253 (8)
C14	1.1228 (3)	0.3841 (2)	0.73790 (18)	0.0282 (9)
N3	0.1654 (2)	0.17225 (18)	0.11602 (17)	0.0297 (8)
N4	0.0470 (2)	0.1067 (2)	−0.19910 (16)	0.0295 (8)
C15	0.1780 (3)	0.0814 (2)	0.05922 (18)	0.0270 (8)
C16	0.2329 (3)	0.0150 (2)	0.1093 (2)	0.0325 (9)
C17	0.2452 (3)	−0.0764 (2)	0.0543 (2)	0.0382 (10)
C18	0.2056 (3)	−0.1044 (2)	−0.0542 (2)	0.0360 (9)
C19	0.1536 (3)	−0.0401 (2)	−0.1042 (2)	0.0292 (8)
C20	0.1369 (2)	0.0542 (2)	−0.05001 (17)	0.0233 (8)
C21	0.0824 (2)	0.1246 (2)	−0.09795 (17)	0.0240 (8)
C22	0.0633 (2)	0.2156 (2)	−0.03506 (17)	0.0232 (8)
C23	−0.0057 (3)	0.2806 (2)	−0.07617 (19)	0.0283 (8)
C24	−0.0252 (3)	0.3638 (2)	−0.0140 (2)	0.0355 (10)
C25	0.0242 (3)	0.3871 (2)	0.0935 (2)	0.0400 (10)
C26	0.0888 (3)	0.3254 (2)	0.1365 (2)	0.0346 (9)
C27	0.1076 (3)	0.2375 (2)	0.07306 (18)	0.0271 (8)
N5	0.3572 (2)	0.39380 (17)	−0.02097 (16)	0.0264 (7)
N6	0.5174 (3)	0.3113 (2)	0.23769 (18)	0.0355 (8)
C28	0.3934 (2)	0.3036 (2)	−0.03271 (18)	0.0245 (8)
C29	0.3761 (3)	0.2399 (2)	−0.13218 (18)	0.0299 (9)
C30	0.4114 (3)	0.1489 (2)	−0.1451 (2)	0.0343 (9)
C31	0.4661 (3)	0.1165 (2)	−0.0593 (2)	0.0334 (9)
C32	0.4863 (3)	0.1782 (2)	0.03764 (19)	0.0302 (9)
C33	0.4506 (2)	0.2735 (2)	0.05425 (18)	0.0252 (8)
C34	0.4677 (3)	0.3401 (2)	0.15506 (18)	0.0266 (8)
C35	0.4295 (3)	0.4357 (2)	0.16326 (19)	0.0291 (8)
C36	0.4400 (3)	0.5062 (2)	0.2583 (2)	0.0382 (10)
C37	0.3979 (3)	0.5932 (2)	0.2626 (2)	0.0414 (10)
C38	0.3422 (3)	0.6171 (2)	0.1720 (2)	0.0375 (10)
C39	0.3303 (3)	0.5512 (2)	0.0784 (2)	0.0304 (9)
C40	0.3721 (3)	0.4599 (2)	0.07257 (17)	0.0247 (8)
O1W	0.5825 (3)	0.1218 (2)	0.28006 (17)	0.0486 (8)
O2W	0.3854 (3)	0.36532 (18)	0.47401 (17)	0.0440 (8)
O3W	0.1873 (3)	0.2025 (2)	0.31711 (16)	0.0540 (9)
H2	0.57860	−0.12260	0.56030	0.0440*
H3	0.64550	−0.21700	0.43320	0.0470*
H4	0.80620	−0.12060	0.37010	0.0390*
H9	0.86790	0.59940	0.54800	0.0310*
H10	1.08600	0.69310	0.65920	0.0340*
H11	1.20220	0.59870	0.74650	0.0320*
H16	0.26130	0.03420	0.18160	0.0390*
H17	0.28020	−0.12140	0.08840	0.0460*
H18	0.21510	−0.16760	−0.09210	0.0430*
H19	0.12840	−0.05930	−0.17650	0.0350*
H23	−0.03870	0.26600	−0.14800	0.0340*
H24	−0.07190	0.40600	−0.04270	0.0430*
H25	0.01250	0.44620	0.13620	0.0480*
H26	0.12080	0.34130	0.20850	0.0420*
H42	0.054 (3)	0.053 (2)	−0.241 (2)	0.039 (8)*
H43	0.033 (3)	0.162 (3)	−0.226 (2)	0.052 (9)*
H49	0.182 (3)	0.182 (2)	0.180 (2)	0.048 (9)*
H29	0.33980	0.26070	−0.18990	0.0360*
H30	0.39940	0.10690	−0.21180	0.0410*
H31	0.48860	0.05240	−0.06910	0.0400*
H32	0.52470	0.15690	0.09440	0.0360*
H36	0.47720	0.49190	0.31980	0.0460*
H37	0.40590	0.63840	0.32690	0.0500*
H38	0.31330	0.67810	0.17570	0.0450*
H39	0.29380	0.56730	0.01780	0.0360*
H40	0.538 (3)	0.247 (2)	0.2337 (19)	0.031 (7)*
H45	0.536 (3)	0.358 (3)	0.296 (2)	0.047 (9)*
H46	0.317 (3)	0.401 (2)	−0.075 (2)	0.040 (9)*
H48	0.620 (4)	0.168 (3)	0.341 (3)	0.075 (13)*
H50	0.525 (5)	0.062 (4)	0.283 (3)	0.095 (16)*
H41	0.372 (4)	0.427 (3)	0.494 (3)	0.064 (12)*
H51	0.463 (5)	0.375 (3)	0.465 (3)	0.085 (15)*
H44	0.247 (4)	0.254 (3)	0.368 (3)	0.076 (13)*
H47	0.126 (4)	0.170 (3)	0.338 (2)	0.052 (11)*

	U¹¹	U²²	U³³	U¹²	U¹³	U²³
Cu1	0.0360 (2)	0.0211 (2)	0.0214 (2)	0.0101 (2)	0.0108 (1)	0.0067 (1)
O1	0.0498 (13)	0.0265 (10)	0.0348 (10)	0.0111 (10)	0.0216 (9)	0.0079 (8)
O2	0.0493 (14)	0.0480 (13)	0.0409 (11)	0.0142 (11)	0.0268 (11)	0.0181 (10)
O3	0.0482 (13)	0.0225 (10)	0.0300 (9)	0.0115 (9)	0.0195 (9)	0.0077 (8)
O4	0.0485 (13)	0.0350 (11)	0.0304 (9)	0.0109 (10)	0.0210 (9)	0.0023 (8)
O5	0.0386 (12)	0.0245 (11)	0.0364 (10)	0.0078 (9)	−0.0011 (9)	0.0054 (8)
O6	0.0309 (11)	0.0356 (11)	0.0324 (9)	0.0162 (9)	0.0014 (8)	0.0087 (8)
O7	0.0445 (12)	0.0312 (11)	0.0288 (9)	0.0182 (10)	0.0083 (9)	0.0151 (8)
O8	0.0397 (13)	0.0500 (13)	0.0382 (11)	0.0093 (11)	−0.0084 (10)	0.0211 (10)
N1	0.0330 (14)	0.0251 (12)	0.0204 (10)	0.0107 (10)	0.0074 (10)	0.0092 (9)
N2	0.0285 (13)	0.0231 (11)	0.0173 (9)	0.0108 (10)	0.0084 (9)	0.0056 (8)
C1	0.0307 (16)	0.0282 (14)	0.0244 (12)	0.0087 (12)	0.0067 (12)	0.0122 (11)
C2	0.0424 (19)	0.0287 (15)	0.0351 (15)	0.0047 (13)	0.0123 (14)	0.0130 (12)
C3	0.052 (2)	0.0208 (14)	0.0337 (15)	0.0023 (14)	0.0080 (14)	0.0046 (12)
C4	0.0439 (18)	0.0249 (14)	0.0244 (13)	0.0108 (13)	0.0087 (12)	0.0026 (11)
C5	0.0333 (16)	0.0249 (14)	0.0194 (12)	0.0113 (12)	0.0054 (11)	0.0059 (10)
C6	0.0363 (17)	0.0367 (16)	0.0246 (13)	0.0147 (14)	0.0105 (12)	0.0130 (12)
C7	0.0362 (17)	0.0272 (14)	0.0190 (12)	0.0121 (13)	0.0077 (11)	0.0082 (10)
C8	0.0255 (14)	0.0253 (13)	0.0166 (11)	0.0130 (11)	0.0086 (10)	0.0068 (10)
C9	0.0316 (16)	0.0260 (14)	0.0254 (12)	0.0152 (12)	0.0091 (12)	0.0116 (11)
C10	0.0358 (17)	0.0238 (14)	0.0272 (13)	0.0090 (12)	0.0110 (12)	0.0092 (11)
C11	0.0258 (15)	0.0265 (14)	0.0225 (12)	0.0045 (12)	0.0032 (11)	0.0056 (10)
C12	0.0278 (15)	0.0287 (14)	0.0162 (11)	0.0103 (12)	0.0085 (11)	0.0072 (10)
C13	0.0289 (15)	0.0268 (14)	0.0206 (12)	0.0099 (12)	0.0077 (11)	0.0069 (10)
C14	0.0355 (18)	0.0335 (16)	0.0244 (13)	0.0168 (14)	0.0132 (13)	0.0153 (12)
N3	0.0279 (14)	0.0378 (14)	0.0209 (11)	0.0070 (11)	0.0071 (10)	0.0095 (10)
N4	0.0405 (15)	0.0293 (13)	0.0200 (11)	0.0156 (12)	0.0081 (10)	0.0066 (10)
C15	0.0163 (14)	0.0335 (15)	0.0301 (13)	0.0035 (12)	0.0079 (11)	0.0128 (12)
C16	0.0237 (16)	0.0433 (17)	0.0334 (14)	0.0087 (13)	0.0092 (12)	0.0203 (13)
C17	0.0228 (16)	0.0460 (18)	0.0539 (18)	0.0124 (14)	0.0101 (14)	0.0325 (15)
C18	0.0275 (16)	0.0312 (16)	0.0531 (17)	0.0115 (13)	0.0147 (14)	0.0153 (13)
C19	0.0247 (15)	0.0277 (14)	0.0335 (14)	0.0077 (12)	0.0076 (12)	0.0089 (11)
C20	0.0168 (14)	0.0279 (14)	0.0233 (12)	0.0050 (11)	0.0049 (10)	0.0085 (10)
C21	0.0188 (14)	0.0257 (13)	0.0233 (12)	0.0024 (11)	0.0073 (11)	0.0045 (10)
C22	0.0202 (14)	0.0246 (13)	0.0229 (12)	0.0040 (11)	0.0081 (11)	0.0059 (10)
C23	0.0302 (16)	0.0267 (14)	0.0289 (13)	0.0090 (12)	0.0113 (12)	0.0081 (11)
C24	0.0381 (18)	0.0313 (16)	0.0433 (16)	0.0149 (14)	0.0195 (14)	0.0118 (13)
C25	0.050 (2)	0.0316 (16)	0.0405 (16)	0.0132 (15)	0.0256 (15)	0.0023 (13)
C26	0.0396 (18)	0.0324 (15)	0.0276 (13)	0.0051 (14)	0.0155 (13)	0.0035 (12)
C27	0.0228 (15)	0.0305 (14)	0.0257 (12)	0.0041 (12)	0.0094 (11)	0.0079 (11)
N5	0.0263 (13)	0.0301 (13)	0.0222 (11)	0.0090 (10)	0.0043 (10)	0.0107 (10)
N6	0.0403 (16)	0.0389 (15)	0.0252 (13)	0.0163 (13)	0.0029 (11)	0.0096 (12)
C28	0.0183 (14)	0.0267 (14)	0.0282 (12)	0.0060 (11)	0.0076 (11)	0.0092 (11)
C29	0.0273 (16)	0.0387 (16)	0.0246 (12)	0.0120 (13)	0.0078 (11)	0.0103 (11)
C30	0.0324 (17)	0.0392 (17)	0.0297 (14)	0.0126 (14)	0.0092 (12)	0.0065 (12)
C31	0.0280 (16)	0.0354 (16)	0.0407 (15)	0.0142 (13)	0.0128 (13)	0.0122 (13)
C32	0.0236 (15)	0.0363 (16)	0.0322 (14)	0.0113 (13)	0.0078 (12)	0.0126 (12)
C33	0.0171 (14)	0.0297 (14)	0.0282 (13)	0.0066 (12)	0.0053 (11)	0.0110 (11)
C34	0.0171 (14)	0.0314 (14)	0.0270 (13)	0.0037 (12)	0.0026 (11)	0.0107 (11)
C35	0.0236 (15)	0.0313 (15)	0.0293 (13)	0.0056 (12)	0.0070 (11)	0.0089 (11)
C36	0.0406 (19)	0.0424 (17)	0.0252 (13)	0.0116 (15)	0.0051 (13)	0.0059 (12)
C37	0.0445 (19)	0.0369 (17)	0.0322 (15)	0.0101 (15)	0.0075 (14)	−0.0017 (13)
C38	0.0342 (18)	0.0298 (15)	0.0470 (17)	0.0107 (13)	0.0126 (14)	0.0085 (13)
C39	0.0278 (16)	0.0296 (15)	0.0349 (14)	0.0104 (12)	0.0086 (12)	0.0122 (12)
C40	0.0192 (14)	0.0254 (13)	0.0253 (12)	0.0034 (11)	0.0052 (11)	0.0062 (11)
O1W	0.0624 (17)	0.0409 (14)	0.0332 (12)	0.0100 (13)	0.0065 (11)	0.0113 (11)
O2W	0.0368 (14)	0.0343 (13)	0.0539 (13)	0.0069 (11)	0.0122 (11)	0.0072 (10)
O3W	0.0522 (17)	0.0673 (17)	0.0235 (11)	−0.0061 (13)	0.0107 (11)	0.0096 (11)

Cu1—O1	2.050 (2)	C3—H3	0.9400
Cu1—O3	2.063 (2)	C4—H4	0.9400
Cu1—O5	2.352 (2)	C9—H9	0.9400
Cu1—O7	2.3178 (19)	C10—H10	0.9400
Cu1—N1	1.906 (2)	C11—H11	0.9400
Cu1—N2	1.981 (2)	C15—C20	1.421 (3)
O1—C6	1.268 (3)	C15—C16	1.402 (4)
O2—C6	1.243 (4)	C16—C17	1.353 (4)
O3—C7	1.258 (3)	C17—C18	1.411 (4)
O4—C7	1.246 (3)	C18—C19	1.363 (4)
O5—C13	1.239 (3)	C19—C20	1.403 (4)
O6—C13	1.260 (4)	C20—C21	1.430 (4)
O7—C14	1.256 (3)	C21—C22	1.434 (3)
O8—C14	1.247 (3)	C22—C27	1.413 (3)
O1W—H48	0.87 (4)	C22—C23	1.410 (4)
O1W—H50	0.89 (5)	C23—C24	1.354 (4)
O2W—H41	0.87 (4)	C24—C25	1.405 (4)
O2W—H51	0.86 (6)	C25—C26	1.357 (4)
N1—C1	1.342 (4)	C26—C27	1.405 (4)
N1—C5	1.333 (3)	C16—H16	0.9400
N2—C12	1.345 (4)	C17—H17	0.9400
N2—C8	1.344 (3)	C18—H18	0.9400
O3W—H47	0.84 (4)	C19—H19	0.9400
O3W—H44	0.86 (4)	C23—H23	0.9400
N3—C27	1.356 (4)	C24—H24	0.9400
N3—C15	1.359 (4)	C25—H25	0.9400
N4—C21	1.325 (3)	C26—H26	0.9400
N3—H49	0.84 (3)	C28—C33	1.415 (3)
N4—H42	0.86 (3)	C28—C29	1.409 (3)
N4—H43	0.92 (4)	C29—C30	1.354 (4)
N5—C40	1.360 (3)	C30—C31	1.411 (4)
N5—C28	1.349 (3)	C31—C32	1.362 (4)
N6—C34	1.331 (4)	C32—C33	1.411 (4)
N5—H46	0.82 (3)	C33—C34	1.439 (3)
N6—H45	0.86 (3)	C34—C35	1.430 (4)
N6—H40	0.93 (3)	C35—C40	1.415 (4)
C1—C6	1.518 (4)	C35—C36	1.416 (4)
C1—C2	1.372 (4)	C36—C37	1.348 (4)
C2—C3	1.384 (4)	C37—C38	1.406 (4)
C3—C4	1.390 (4)	C38—C39	1.370 (4)
C4—C5	1.374 (4)	C39—C40	1.399 (4)
C5—C7	1.510 (4)	C29—H29	0.9400
C8—C13	1.521 (4)	C30—H30	0.9400
C8—C9	1.376 (4)	C31—H31	0.9400
C9—C10	1.382 (4)	C32—H32	0.9400
C10—C11	1.375 (4)	C36—H36	0.9400
C11—C12	1.381 (4)	C37—H37	0.9400
C12—C14	1.521 (4)	C38—H38	0.9400
C2—H2	0.9400	C39—H39	0.9400

O1—Cu1—O3	159.50 (8)	C12—C11—H11	120.00
O1—Cu1—O5	91.62 (8)	C10—C11—H11	120.00
O1—Cu1—O7	94.52 (7)	N3—C15—C20	120.4 (2)
O1—Cu1—N1	79.95 (9)	C16—C15—C20	120.2 (2)
O1—Cu1—N2	104.42 (8)	N3—C15—C16	119.4 (2)
O3—Cu1—O5	94.79 (7)	C15—C16—C17	120.5 (2)
O3—Cu1—O7	89.05 (7)	C16—C17—C18	120.1 (3)
O3—Cu1—N1	79.73 (8)	C17—C18—C19	120.2 (3)
O3—Cu1—N2	96.04 (8)	C18—C19—C20	121.3 (2)
O5—Cu1—O7	151.63 (7)	C15—C20—C21	118.4 (2)
O5—Cu1—N1	101.04 (8)	C19—C20—C21	124.0 (2)
O5—Cu1—N2	75.13 (8)	C15—C20—C19	117.6 (2)
O7—Cu1—N1	107.30 (8)	C20—C21—C22	119.1 (2)
O7—Cu1—N2	76.51 (8)	N4—C21—C22	119.2 (2)
N1—Cu1—N2	174.13 (8)	N4—C21—C20	121.7 (2)
Cu1—O1—C6	114.78 (18)	C21—C22—C23	123.0 (2)
Cu1—O3—C7	114.16 (18)	C23—C22—C27	118.0 (2)
Cu1—O5—C13	111.38 (17)	C21—C22—C27	118.9 (2)
Cu1—O7—C14	111.30 (18)	C22—C23—C24	121.1 (2)
H48—O1W—H50	110 (4)	C23—C24—C25	120.1 (3)
H41—O2W—H51	112 (4)	C24—C25—C26	120.8 (3)
Cu1—N1—C1	118.74 (17)	C25—C26—C27	119.8 (2)
Cu1—N1—C5	118.93 (19)	N3—C27—C26	119.6 (2)
C1—N1—C5	122.3 (2)	N3—C27—C22	120.2 (2)
Cu1—N2—C8	120.85 (16)	C22—C27—C26	120.1 (3)
C8—N2—C12	119.7 (2)	C17—C16—H16	120.00
Cu1—N2—C12	119.06 (18)	C15—C16—H16	120.00
H44—O3W—H47	109 (3)	C18—C17—H17	120.00
C15—N3—C27	122.8 (2)	C16—C17—H17	120.00
C27—N3—H49	118 (2)	C17—C18—H18	120.00
C15—N3—H49	118 (2)	C19—C18—H18	120.00
H42—N4—H43	116 (3)	C20—C19—H19	119.00
C21—N4—H43	119.1 (18)	C18—C19—H19	119.00
C21—N4—H42	123.8 (19)	C22—C23—H23	119.00
C28—N5—C40	123.1 (2)	C24—C23—H23	119.00
C28—N5—H46	114 (2)	C25—C24—H24	120.00
C40—N5—H46	123 (2)	C23—C24—H24	120.00
H40—N6—H45	121 (3)	C26—C25—H25	120.00
C34—N6—H45	116 (2)	C24—C25—H25	120.00
C34—N6—H40	123.0 (15)	C25—C26—H26	120.00
N1—C1—C2	119.8 (3)	C27—C26—H26	120.00
C2—C1—C6	128.8 (3)	N5—C28—C33	120.5 (2)
N1—C1—C6	111.5 (2)	C29—C28—C33	119.8 (2)
C1—C2—C3	119.1 (3)	N5—C28—C29	119.8 (2)
C2—C3—C4	120.0 (3)	C28—C29—C30	120.4 (2)
C3—C4—C5	118.4 (3)	C29—C30—C31	120.6 (2)
N1—C5—C7	111.5 (2)	C30—C31—C32	120.0 (3)
C4—C5—C7	128.1 (3)	C31—C32—C33	121.1 (2)
N1—C5—C4	120.3 (3)	C28—C33—C32	118.2 (2)
O1—C6—O2	126.2 (3)	C28—C33—C34	118.7 (2)
O2—C6—C1	118.9 (2)	C32—C33—C34	123.1 (2)
O1—C6—C1	114.9 (3)	N6—C34—C33	119.7 (3)
O3—C7—C5	115.7 (2)	N6—C34—C35	121.8 (2)
O4—C7—C5	118.5 (2)	C33—C34—C35	118.5 (2)
O3—C7—O4	125.8 (3)	C34—C35—C40	119.3 (2)
N2—C8—C13	115.3 (2)	C34—C35—C36	123.4 (2)
C9—C8—C13	123.6 (2)	C36—C35—C40	117.2 (3)
N2—C8—C9	121.1 (2)	C35—C36—C37	121.6 (3)
C8—C9—C10	119.5 (3)	C36—C37—C38	120.7 (3)
C9—C10—C11	119.0 (3)	C37—C38—C39	119.7 (3)
C10—C11—C12	119.3 (3)	C38—C39—C40	120.3 (2)
N2—C12—C11	121.3 (3)	N5—C40—C39	119.8 (2)
C11—C12—C14	122.6 (3)	C35—C40—C39	120.5 (2)
N2—C12—C14	116.1 (2)	N5—C40—C35	119.8 (3)
O5—C13—O6	126.4 (3)	C28—C29—H29	120.00
O5—C13—C8	116.4 (3)	C30—C29—H29	120.00
O6—C13—C8	117.2 (2)	C31—C30—H30	120.00
O7—C14—C12	116.3 (2)	C29—C30—H30	120.00
O8—C14—C12	115.6 (2)	C32—C31—H31	120.00
O7—C14—O8	128.1 (3)	C30—C31—H31	120.00
C1—C2—H2	120.00	C31—C32—H32	119.00
C3—C2—H2	120.00	C33—C32—H32	120.00
C2—C3—H3	120.00	C35—C36—H36	119.00
C4—C3—H3	120.00	C37—C36—H36	119.00
C3—C4—H4	121.00	C38—C37—H37	120.00
C5—C4—H4	121.00	C36—C37—H37	120.00
C8—C9—H9	120.00	C37—C38—H38	120.00
C10—C9—H9	120.00	C39—C38—H38	120.00
C9—C10—H10	120.00	C38—C39—H39	120.00
C11—C10—H10	121.00	C40—C39—H39	120.00

O3—Cu1—O1—C6	−11.1 (4)	N1—C5—C7—O3	−0.9 (4)
O5—Cu1—O1—C6	97.2 (2)	C4—C5—C7—O3	179.1 (3)
O7—Cu1—O1—C6	−110.5 (2)	C4—C5—C7—O4	−1.2 (5)
N1—Cu1—O1—C6	−3.7 (2)	N1—C5—C7—O4	178.9 (2)
N2—Cu1—O1—C6	172.3 (2)	C9—C8—C13—O6	−12.3 (4)
O1—Cu1—O3—C7	7.0 (3)	C13—C8—C9—C10	−178.3 (2)
O5—Cu1—O3—C7	−100.75 (19)	N2—C8—C13—O5	−11.4 (3)
O7—Cu1—O3—C7	107.40 (19)	N2—C8—C9—C10	−0.1 (4)
N1—Cu1—O3—C7	−0.37 (19)	C9—C8—C13—O5	166.8 (2)
N2—Cu1—O3—C7	−176.27 (19)	N2—C8—C13—O6	169.5 (2)
O1—Cu1—O5—C13	99.50 (19)	C8—C9—C10—C11	−1.0 (4)
O3—Cu1—O5—C13	−99.99 (19)	C9—C10—C11—C12	1.2 (4)
O7—Cu1—O5—C13	−3.1 (3)	C10—C11—C12—N2	−0.2 (4)
N1—Cu1—O5—C13	179.57 (19)	C10—C11—C12—C14	−178.4 (3)
N2—Cu1—O5—C13	−5.00 (19)	N2—C12—C14—O7	7.2 (4)
O1—Cu1—O7—C14	−106.32 (19)	N2—C12—C14—O8	−172.0 (2)
O3—Cu1—O7—C14	93.89 (19)	C11—C12—C14—O8	6.3 (4)
O5—Cu1—O7—C14	−4.4 (3)	C11—C12—C14—O7	−174.5 (3)
N1—Cu1—O7—C14	172.82 (19)	N3—C15—C20—C21	0.0 (4)
N2—Cu1—O7—C14	−2.56 (19)	C16—C15—C20—C19	−0.1 (4)
O1—Cu1—N1—C1	3.8 (2)	N3—C15—C16—C17	179.4 (3)
O1—Cu1—N1—C5	−177.5 (2)	C20—C15—C16—C17	−1.1 (5)
O3—Cu1—N1—C1	−178.8 (2)	C16—C15—C20—C21	−179.5 (3)
O3—Cu1—N1—C5	−0.2 (2)	N3—C15—C20—C19	179.5 (3)
O5—Cu1—N1—C1	−85.9 (2)	C15—C16—C17—C18	1.5 (5)
O5—Cu1—N1—C5	92.8 (2)	C16—C17—C18—C19	−0.6 (5)
O7—Cu1—N1—C1	95.4 (2)	C17—C18—C19—C20	−0.6 (5)
O7—Cu1—N1—C5	−85.9 (2)	C18—C19—C20—C15	0.9 (4)
O1—Cu1—N2—C8	−89.28 (19)	C18—C19—C20—C21	−179.7 (3)
O1—Cu1—N2—C12	98.1 (2)	C15—C20—C21—C22	−3.9 (4)
O3—Cu1—N2—C8	91.90 (19)	C19—C20—C21—N4	−2.1 (4)
O3—Cu1—N2—C12	−80.76 (19)	C19—C20—C21—C22	176.7 (3)
O5—Cu1—N2—C8	−1.46 (17)	C15—C20—C21—N4	177.3 (3)
O5—Cu1—N2—C12	−174.1 (2)	C20—C21—C22—C27	4.4 (4)
O7—Cu1—N2—C8	179.5 (2)	N4—C21—C22—C23	7.5 (4)
O7—Cu1—N2—C12	6.80 (18)	N4—C21—C22—C27	−176.8 (3)
Cu1—O1—C6—O2	−178.2 (2)	C20—C21—C22—C23	−171.4 (3)
Cu1—O1—C6—C1	3.0 (3)	C27—C22—C23—C24	2.1 (4)
Cu1—O3—C7—O4	−179.0 (2)	C21—C22—C27—N3	−0.9 (4)
Cu1—O3—C7—C5	0.8 (3)	C21—C22—C27—C26	−179.3 (3)
Cu1—O5—C13—O6	−171.3 (2)	C21—C22—C23—C24	177.9 (3)
Cu1—O5—C13—C8	9.7 (3)	C23—C22—C27—N3	175.1 (3)
Cu1—O7—C14—O8	177.6 (3)	C23—C22—C27—C26	−3.3 (4)
Cu1—O7—C14—C12	−1.6 (3)	C22—C23—C24—C25	0.3 (5)
Cu1—N1—C1—C2	177.5 (2)	C23—C24—C25—C26	−1.7 (5)
Cu1—N1—C1—C6	−3.3 (3)	C24—C25—C26—C27	0.5 (5)
C5—N1—C1—C2	−1.1 (4)	C25—C26—C27—N3	−176.3 (3)
C5—N1—C1—C6	178.1 (2)	C25—C26—C27—C22	2.1 (5)
Cu1—N1—C5—C4	−179.4 (2)	N5—C28—C29—C30	−179.7 (3)
Cu1—N1—C5—C7	0.6 (3)	C33—C28—C29—C30	1.3 (4)
C1—N1—C5—C4	−0.8 (4)	N5—C28—C33—C32	179.8 (2)
C1—N1—C5—C7	179.2 (2)	N5—C28—C33—C34	0.8 (4)
Cu1—N2—C8—C9	−171.50 (19)	C29—C28—C33—C32	−1.2 (4)
Cu1—N2—C8—C13	6.8 (3)	C29—C28—C33—C34	179.8 (3)
C12—N2—C8—C9	1.1 (4)	C28—C29—C30—C31	−0.1 (5)
C12—N2—C8—C13	179.4 (2)	C29—C30—C31—C32	−1.3 (5)
Cu1—N2—C12—C11	171.8 (2)	C30—C31—C32—C33	1.4 (5)
Cu1—N2—C12—C14	−9.9 (3)	C31—C32—C33—C28	−0.2 (4)
C8—N2—C12—C11	−1.0 (4)	C31—C32—C33—C34	178.8 (3)
C8—N2—C12—C14	177.3 (2)	C28—C33—C34—N6	177.9 (3)
C15—N3—C27—C26	175.2 (3)	C28—C33—C34—C35	−1.7 (4)
C15—N3—C27—C22	−3.2 (4)	C32—C33—C34—N6	−1.1 (5)
C27—N3—C15—C16	−176.8 (3)	C32—C33—C34—C35	179.3 (3)
C27—N3—C15—C20	3.7 (4)	N6—C34—C35—C36	−0.6 (5)
C28—N5—C40—C39	−179.1 (3)	N6—C34—C35—C40	−177.4 (3)
C28—N5—C40—C35	0.8 (4)	C33—C34—C35—C36	179.0 (3)
C40—N5—C28—C29	−179.3 (3)	C33—C34—C35—C40	2.2 (4)
C40—N5—C28—C33	−0.3 (4)	C34—C35—C36—C37	−177.3 (3)
C2—C1—C6—O1	179.1 (3)	C40—C35—C36—C37	−0.4 (5)
C2—C1—C6—O2	0.2 (5)	C34—C35—C40—N5	−1.7 (5)
N1—C1—C6—O2	−179.0 (3)	C34—C35—C40—C39	178.2 (3)
C6—C1—C2—C3	−177.3 (3)	C36—C35—C40—N5	−178.8 (3)
N1—C1—C6—O1	0.0 (4)	C36—C35—C40—C39	1.1 (5)
N1—C1—C2—C3	1.8 (4)	C35—C36—C37—C38	−0.3 (5)
C1—C2—C3—C4	−0.6 (4)	C36—C37—C38—C39	0.2 (5)
C2—C3—C4—C5	−1.2 (4)	C37—C38—C39—C40	0.6 (5)
C3—C4—C5—C7	−178.0 (3)	C38—C39—C40—N5	178.7 (3)
C3—C4—C5—N1	1.9 (4)	C38—C39—C40—C35	−1.2 (5)

D—H···A	D—H	H···A	D···A	D—H···A
N6—H40···O1W	0.93 (3)	2.04 (3)	2.927 (4)	159 (2)
O2W—H41···O6ⁱ	0.87 (4)	1.93 (4)	2.796 (3)	177 (4)
N4—H42···O4ⁱⁱ	0.86 (3)	1.97 (3)	2.808 (3)	165 (3)
N4—H43···O7ⁱⁱⁱ	0.92 (4)	1.99 (4)	2.880 (3)	161 (3)
O3W—H44···O2W	0.86 (4)	1.86 (4)	2.720 (4)	176 (3)
N6—H45···O6	0.86 (3)	2.18 (3)	2.965 (3)	153 (3)
N5—H46···O8ⁱⁱⁱ	0.82 (3)	1.91 (3)	2.719 (3)	173 (3)
O3W—H47···O4^iv	0.84 (4)	1.95 (4)	2.780 (4)	168 (3)
O1W—H48···O5	0.87 (4)	1.97 (4)	2.828 (3)	174 (4)
N3—H49···O3W	0.84 (3)	1.86 (3)	2.698 (3)	170 (3)
O1W—H50···O2^v	0.89 (5)	1.96 (5)	2.847 (4)	176 (4)
O2W—H51···O6	0.86 (6)	1.97 (5)	2.812 (4)	167 (4)
C3—H3···O2W^v	0.94	2.57	3.266 (4)	131
C10—H10···O3^vi	0.94	2.51	3.152 (3)	126
C19—H19···O4ⁱⁱ	0.94	2.49	3.401 (3)	163
C23—H23···O7ⁱⁱⁱ	0.94	2.52	3.262 (3)	136

Table 1

Hydrogen-bond geometry (Å, °)

D—H⋯A	D—H	H⋯A	D⋯A	D—H⋯A
N6—H40⋯O1W	0.93 (3)	2.04 (3)	2.927 (4)	159 (2)
O2W—H41⋯O6ⁱ	0.87 (4)	1.93 (4)	2.796 (3)	177 (4)
N4—H42⋯O4ⁱⁱ	0.86 (3)	1.97 (3)	2.808 (3)	165 (3)
N4—H43⋯O7ⁱⁱⁱ	0.92 (4)	1.99 (4)	2.880 (3)	161 (3)
O3W—H44⋯O2W	0.86 (4)	1.86 (4)	2.720 (4)	176 (3)
N6—H45⋯O6	0.86 (3)	2.18 (3)	2.965 (3)	153 (3)
N5—H46⋯O8ⁱⁱⁱ	0.82 (3)	1.91 (3)	2.719 (3)	173 (3)
O3W—H47⋯O4^iv	0.84 (4)	1.95 (4)	2.780 (4)	168 (3)
O1W—H48⋯O5	0.87 (4)	1.97 (4)	2.828 (3)	174 (4)
N3—H49⋯O3W	0.84 (3)	1.86 (3)	2.698 (3)	170 (3)
O1W—H50⋯O2^v	0.89 (5)	1.96 (5)	2.847 (4)	176 (4)
O2W—H51⋯O6	0.86 (6)	1.97 (5)	2.812 (4)	167 (4)
C3—H3⋯O2W^v	0.94	2.57	3.266 (4)	131
C10—H10⋯O3^vi	0.94	2.51	3.152 (3)	126
C19—H19⋯O4ⁱⁱ	0.94	2.49	3.401 (3)	163
C23—H23⋯O7ⁱⁱⁱ	0.94	2.52	3.262 (3)	136

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

5 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. Bis(9-amino-acridinium) bis-(pyridine-2,6-dicarboxyl-ato-κO,N,O)nickelate(II) trihydrate.

Authors: Zohreh Derikvand; Marilyn M Olmstead
Journal: Acta Crystallogr Sect E Struct Rep Online Date: 2010-05-15

3. Hydroxonium hydrate tris-(2,4,6-tri-amino-1,3,5-triazin-1-ium) bis-[bis-(pyri-dine-2,6-dicarboxyl-ato)cuprate(II)] pyridine-2,6-dicarboxylic acid hexa-hydrate.

Authors: Hossein Aghabozorg; Jafar Attar Gharamaleki; Marilyn M Olmstead; Zohreh Derikvand; Shabnam Hooshmand
Journal: Acta Crystallogr Sect E Struct Rep Online Date: 2009-01-14

4. Bis(9-amino-acridinium) bis-(pyridine-2,6-dicarboxyl-ato)cuprate(II) trihydrate.

Authors: Hossein Aghabozorg; Shabnam Ahmadvand; Masoud Mirzaei; Hamid Reza Khavasi
Journal: Acta Crystallogr Sect E Struct Rep Online Date: 2010-09-30

5. Structure validation in chemical crystallography.

Authors: Anthony L Spek
Journal: Acta Crystallogr D Biol Crystallogr Date: 2009-01-20