Literature DB >> 21579693

Poly[diaqua-tris(μ(4)-isophthalato)dilanthanum(III)].

Abstract

In the title coordination polymer, [La(2)(C(8)H(4)O(4))(3)(H(2)O)(2)](n), there are two independent La(III) atoms which are coordinated differently in slightly distorted penta-gonal-bipyramidal and slightly disorted bicapped trigonal-prismatic environments. The La(III) ions are bridged by μ(4)-isophthalate ligands, forming two-dimensional layers. In the crystal structure, these layers are connected by inter-molecular O-H⋯O hydrogen bonds into a three-dimensional network.

Entities: Chemical Disease Gene

Year: 2010 PMID： 21579693 PMCID： PMC2979801 DOI： 10.1107/S1600536809054543

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

Related literature

For background information on lanthanide coordination polymers, see: Cheng et al. (2007 ▶); Dorweiler et al. (2009 ▶); Mondal et al. (2009 ▶) and for the use of multicarboxyl group ligands in this type of polymer, see: Mahata et al. (2007 ▶); Zhou et al. (2008 ▶).

Experimental

Crystal data

[La2(C8H4O4)3(H2O)2] M = 806.19 Monoclinic, a = 13.3956 (12) Å b = 14.4877 (8) Å c = 13.5754 (11) Å β = 103.998 (5)° V = 2556.4 (3) Å3 Z = 4 Mo Kα radiation μ = 3.37 mm−1 T = 293 K 0.20 × 0.15 × 0.10 mm

Data collection

Rigaku Mercury diffractometer Absorption correction: multi-scan (CrystalClear; Rigaku, 2007 ▶) T min = 0.717, T max = 1.000 19411 measured reflections 5841 independent reflections 5111 reflections with I > 2σ(I) R int = 0.042

Refinement

R[F 2 > 2σ(F 2)] = 0.048 wR(F 2) = 0.139 S = 1.08 5841 reflections 361 parameters 18 restraints H-atom parameters constrained Δρmax = 2.72 e Å−3 Δρmin = −1.33 e Å−3 Data collection: CrystalClear (Rigaku, 2007 ▶); cell refinement: CrystalClear; data reduction: CrystalClear; program(s) used to solve structure: SHELXS97 (Sheldrick, 2008 ▶); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008 ▶); molecular graphics: DIAMOND (Brandenburg, 2004 ▶); software used to prepare material for publication: SHELXTL (Sheldrick, 2008 ▶). Crystal structure: contains datablocks global, I. DOI: 10.1107/S1600536809054543/lh2972sup1.cif Structure factors: contains datablocks I. DOI: 10.1107/S1600536809054543/lh2972Isup2.hkl Additional supplementary materials: crystallographic information; 3D view; checkCIF report

[La₂(C₈H₄O₄)₃(H₂O)₂]	F(000) = 1544
M_r = 806.19	D_x = 2.095 Mg m⁻³
Monoclinic, P2₁/n	Mo Kα radiation, λ = 0.71073 Å
Hall symbol: -P 2yn	Cell parameters from 6025 reflections
a = 13.3956 (12) Å	θ = 3.1–27.5°
b = 14.4877 (8) Å	µ = 3.37 mm⁻¹
c = 13.5754 (11) Å	T = 293 K
β = 103.998 (5)°	Prism, colorless
V = 2556.4 (3) Å³	0.20 × 0.15 × 0.10 mm
Z = 4

Rigaku Mercury diffractometer	5841 independent reflections
Radiation source: fine-focus sealed tube	5111 reflections with I > 2σ(I)
graphite	R_int = 0.042
ω scans	θ_max = 27.5°, θ_min = 2.1°
Absorption correction: multi-scan (CrystalClear; Rigaku, 2007)	h = −17→16
T_min = 0.717, T_max = 1.000	k = −18→18
19411 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)] = 0.048	Hydrogen site location: inferred from neighbouring sites
wR(F²) = 0.139	H-atom parameters constrained
S = 1.08	w = 1/[σ²(F_o²) + (0.0811P)² + 4.3612P] where P = (F_o² + 2F_c²)/3
5841 reflections	(Δ/σ)_max = 0.001
361 parameters	Δρ_max = 2.72 e Å⁻³
18 restraints	Δρ_min = −1.33 e Å⁻³

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.

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
La1	0.84385 (2)	0.31714 (2)	0.38814 (2)	0.02027 (12)
La2	0.61501 (2)	0.06678 (2)	0.32769 (2)	0.02238 (12)
O1	0.6774 (3)	0.2657 (3)	0.2958 (3)	0.0358 (10)
O2	0.5239 (4)	0.2049 (3)	0.2615 (4)	0.0375 (11)
O3	0.7107 (4)	0.5678 (4)	0.1326 (5)	0.0545 (15)
O4	0.5900 (4)	0.6718 (3)	0.1260 (5)	0.0510 (14)
O5	0.7672 (4)	0.2617 (4)	0.5144 (4)	0.0463 (13)
O6	0.6532 (4)	0.1469 (4)	0.4850 (4)	0.0463 (13)
O7	0.5312 (4)	0.0136 (3)	0.7733 (4)	0.0383 (11)
O8	0.5033 (4)	0.1180 (3)	0.8868 (3)	0.0392 (11)
O9	0.8372 (4)	0.3771 (3)	0.2105 (3)	0.0359 (10)
O10	0.8799 (4)	0.4248 (3)	0.0703 (4)	0.0395 (11)
O11	0.6533 (4)	0.0748 (3)	0.1637 (4)	0.0437 (12)
O12	0.7235 (4)	−0.0402 (3)	0.0943 (4)	0.0482 (13)
O13	0.9519 (5)	0.3449 (5)	0.5562 (4)	0.071 (2)
H13B	1.0027	0.3819	0.5703	0.085*
H13A	0.9312	0.3119	0.5991	0.085*
O14	0.4569 (4)	0.0722 (3)	0.3964 (4)	0.0454 (13)
H14A	0.4165	0.0455	0.3466	0.054*
H14B	0.4465	0.0688	0.4557	0.054*
C1	0.5822 (5)	0.2719 (5)	0.2627 (5)	0.0319 (13)
C2	0.6223 (5)	0.5905 (5)	0.1368 (5)	0.0381 (15)
C3	0.7040 (5)	0.2086 (5)	0.5416 (5)	0.0373 (15)
C4	0.5455 (5)	0.0912 (5)	0.8170 (5)	0.0318 (13)
C5	0.8589 (4)	0.3606 (4)	0.1257 (4)	0.0265 (12)
C6	0.7158 (6)	0.0436 (5)	0.1157 (5)	0.0366 (15)
C7	0.5369 (5)	0.3625 (5)	0.2226 (6)	0.0409 (16)
C8	0.5967 (5)	0.4312 (4)	0.1954 (6)	0.0365 (15)
H8A	0.6664	0.4201	0.2018	0.044*
C9	0.5563 (6)	0.5166 (5)	0.1589 (7)	0.0497 (19)
C10	0.4527 (8)	0.5310 (7)	0.1490 (10)	0.082 (3)
H10A	0.4231	0.5864	0.1219	0.099*
C11	0.3917 (9)	0.4641 (9)	0.1789 (11)	0.098 (4)
H11A	0.3229	0.4759	0.1765	0.118*
C12	0.4353 (7)	0.3788 (6)	0.2126 (9)	0.072 (3)
H12A	0.3939	0.3324	0.2285	0.086*
C13	0.6907 (5)	0.2169 (5)	0.6486 (5)	0.0353 (14)
C14	0.6329 (5)	0.1517 (5)	0.6845 (5)	0.0339 (14)
H14C	0.6048	0.1024	0.6431	0.041*
C15	0.6156 (5)	0.1586 (5)	0.7833 (5)	0.0320 (13)
C16	0.6589 (6)	0.2315 (6)	0.8462 (5)	0.0457 (18)
H16A	0.6474	0.2371	0.9108	0.055*
C17	0.7189 (6)	0.2949 (6)	0.8120 (6)	0.0466 (19)
H17A	0.7495	0.3426	0.8546	0.056*
C18	0.7350 (6)	0.2888 (5)	0.7121 (6)	0.0428 (16)
H18A	0.7751	0.3327	0.6896	0.051*
C19	0.8584 (5)	0.2627 (4)	0.0888 (5)	0.0320 (13)
C20	0.7905 (5)	0.2005 (4)	0.1165 (5)	0.0337 (14)
H20A	0.7471	0.2201	0.1564	0.040*
C21	0.7878 (5)	0.1090 (5)	0.0845 (6)	0.0399 (16)
C22	0.8536 (7)	0.0792 (5)	0.0250 (7)	0.056 (2)
H22A	0.8520	0.0182	0.0033	0.067*
C23	0.9201 (7)	0.1409 (5)	−0.0010 (7)	0.059 (2)
H23A	0.9649	0.1210	−0.0393	0.071*
C24	0.9221 (6)	0.2322 (5)	0.0284 (6)	0.0427 (17)
H24A	0.9662	0.2734	0.0078	0.051*

	U¹¹	U²²	U³³	U¹²	U¹³	U²³
La1	0.02440 (19)	0.01671 (19)	0.02177 (19)	0.00019 (11)	0.00959 (13)	0.00025 (11)
La2	0.0265 (2)	0.0186 (2)	0.02394 (19)	−0.00009 (12)	0.00989 (14)	0.00050 (11)
O1	0.033 (2)	0.039 (3)	0.034 (2)	0.000 (2)	0.0058 (19)	0.001 (2)
O2	0.039 (3)	0.024 (2)	0.049 (3)	−0.003 (2)	0.009 (2)	0.008 (2)
O3	0.035 (3)	0.046 (3)	0.083 (4)	−0.002 (2)	0.015 (3)	0.017 (3)
O4	0.047 (3)	0.027 (3)	0.079 (4)	−0.002 (2)	0.016 (3)	0.008 (2)
O5	0.051 (3)	0.058 (3)	0.035 (3)	−0.018 (3)	0.021 (2)	0.001 (2)
O6	0.047 (3)	0.058 (3)	0.036 (3)	−0.018 (3)	0.014 (2)	−0.009 (2)
O7	0.038 (3)	0.039 (3)	0.041 (3)	−0.005 (2)	0.015 (2)	−0.002 (2)
O8	0.041 (3)	0.048 (3)	0.031 (2)	−0.001 (2)	0.0141 (19)	−0.003 (2)
O9	0.040 (2)	0.039 (3)	0.031 (2)	−0.007 (2)	0.0132 (19)	−0.0029 (19)
O10	0.056 (3)	0.029 (2)	0.036 (3)	−0.008 (2)	0.017 (2)	0.0010 (19)
O11	0.057 (3)	0.040 (3)	0.043 (3)	−0.011 (2)	0.027 (2)	−0.003 (2)
O12	0.060 (3)	0.030 (3)	0.061 (3)	−0.002 (2)	0.027 (3)	−0.003 (2)
O13	0.068 (4)	0.105 (5)	0.035 (3)	−0.049 (4)	0.006 (3)	0.004 (3)
O14	0.046 (3)	0.058 (3)	0.039 (3)	−0.007 (2)	0.024 (2)	−0.013 (2)
C1	0.038 (3)	0.031 (3)	0.027 (3)	−0.005 (3)	0.008 (2)	0.001 (2)
C2	0.034 (4)	0.032 (4)	0.047 (4)	0.001 (3)	0.008 (3)	0.008 (3)
C3	0.035 (3)	0.043 (4)	0.036 (3)	−0.007 (3)	0.013 (3)	−0.004 (3)
C4	0.025 (3)	0.039 (4)	0.030 (3)	0.002 (3)	0.004 (2)	0.000 (3)
C5	0.025 (3)	0.024 (3)	0.031 (3)	0.000 (2)	0.008 (2)	0.004 (2)
C6	0.049 (4)	0.031 (3)	0.034 (3)	−0.003 (3)	0.016 (3)	0.000 (3)
C7	0.033 (3)	0.029 (4)	0.057 (4)	−0.004 (3)	0.005 (3)	0.006 (3)
C8	0.032 (3)	0.033 (4)	0.046 (4)	−0.001 (3)	0.012 (3)	0.005 (3)
C9	0.034 (4)	0.035 (4)	0.077 (6)	0.003 (3)	0.009 (4)	0.011 (4)
C10	0.055 (5)	0.046 (5)	0.149 (8)	0.009 (4)	0.029 (5)	0.036 (5)
C11	0.060 (6)	0.079 (6)	0.160 (9)	0.010 (5)	0.034 (6)	0.044 (6)
C12	0.051 (5)	0.041 (4)	0.127 (7)	−0.003 (4)	0.029 (5)	0.023 (5)
C13	0.037 (3)	0.041 (4)	0.032 (3)	−0.007 (3)	0.017 (3)	−0.006 (3)
C14	0.033 (3)	0.040 (4)	0.032 (3)	−0.004 (3)	0.012 (2)	−0.003 (3)
C15	0.031 (3)	0.039 (4)	0.028 (3)	−0.002 (3)	0.011 (2)	−0.001 (3)
C16	0.052 (4)	0.057 (5)	0.029 (3)	−0.017 (4)	0.012 (3)	−0.011 (3)
C17	0.046 (4)	0.055 (5)	0.045 (4)	−0.026 (4)	0.023 (3)	−0.022 (4)
C18	0.046 (4)	0.042 (4)	0.045 (4)	−0.008 (3)	0.019 (3)	−0.004 (3)
C19	0.036 (3)	0.027 (3)	0.034 (3)	0.000 (3)	0.011 (3)	−0.001 (3)
C20	0.044 (4)	0.026 (3)	0.034 (3)	−0.006 (3)	0.017 (3)	0.002 (3)
C21	0.043 (4)	0.033 (4)	0.050 (4)	−0.008 (3)	0.022 (3)	−0.004 (3)
C22	0.073 (6)	0.032 (4)	0.078 (6)	−0.013 (4)	0.049 (5)	−0.005 (4)
C23	0.081 (6)	0.034 (4)	0.083 (6)	−0.006 (4)	0.061 (5)	−0.012 (4)
C24	0.044 (4)	0.036 (4)	0.055 (4)	−0.004 (3)	0.027 (3)	−0.002 (3)

La1—O12ⁱ	2.291 (5)	C1—C7	1.492 (9)
La1—O4ⁱⁱ	2.310 (5)	C2—C9	1.465 (10)
La1—O8ⁱⁱⁱ	2.338 (5)	C3—C13	1.510 (9)
La1—O5	2.343 (5)	C4—C15	1.500 (9)
La1—O1	2.396 (4)	C5—C19	1.504 (9)
La1—O13	2.422 (5)	C5—La2ⁱ	3.056 (6)
La1—O9	2.545 (4)	C6—C21	1.486 (10)
La2—O3ⁱⁱ	2.266 (5)	C7—C12	1.356 (11)
La2—O6	2.376 (5)	C7—C8	1.383 (9)
La2—O2	2.402 (4)	C8—C9	1.392 (10)
La2—O7^iv	2.403 (5)	C8—H8A	0.9300
La2—O11	2.405 (5)	C9—C10	1.377 (12)
La2—O10ⁱⁱ	2.471 (5)	C10—C11	1.391 (14)
La2—O14	2.514 (5)	C10—H10A	0.9300
La2—O9ⁱⁱ	2.897 (5)	C11—C12	1.395 (14)
O1—C1	1.250 (8)	C11—H11A	0.9300
O2—C1	1.243 (8)	C12—H12A	0.9300
O3—C2	1.244 (9)	C13—C14	1.382 (9)
O3—La2ⁱ	2.266 (5)	C13—C18	1.391 (10)
O4—C2	1.251 (8)	C14—C15	1.418 (9)
O4—La1ⁱ	2.310 (5)	C14—H14C	0.9300
O5—C3	1.263 (8)	C15—C16	1.394 (10)
O6—C3	1.264 (8)	C16—C17	1.373 (10)
O7—C4	1.265 (8)	C16—H16A	0.9300
O7—La2^iv	2.403 (5)	C17—C18	1.426 (10)
O8—C4	1.276 (8)	C17—H17A	0.9300
O8—La1^v	2.338 (5)	C18—H18A	0.9300
O9—C5	1.276 (7)	C19—C24	1.391 (9)
O9—La2ⁱ	2.897 (5)	C19—C20	1.395 (9)
O10—C5	1.269 (7)	C20—C21	1.393 (9)
O10—La2ⁱ	2.471 (5)	C20—H20A	0.9300
O11—C6	1.262 (8)	C21—C22	1.400 (10)
O12—C6	1.258 (8)	C22—C23	1.367 (10)
O12—La1ⁱⁱ	2.291 (5)	C22—H22A	0.9300
O13—H13B	0.8500	C23—C24	1.379 (11)
O13—H13A	0.8501	C23—H23A	0.9300
O14—H14A	0.8500	C24—H24A	0.9300
O14—H14B	0.8501

O12ⁱ—La1—O4ⁱⁱ	178.4 (2)	C7—C1—La2	164.5 (5)
O12ⁱ—La1—O8ⁱⁱⁱ	91.26 (18)	O3—C2—O4	123.4 (7)
O4ⁱⁱ—La1—O8ⁱⁱⁱ	89.77 (18)	O3—C2—C9	116.3 (6)
O12ⁱ—La1—O5	88.85 (19)	O4—C2—C9	120.3 (7)
O4ⁱⁱ—La1—O5	89.6 (2)	O5—C3—O6	123.5 (6)
O8ⁱⁱⁱ—La1—O5	134.94 (17)	O5—C3—C13	118.4 (6)
O12ⁱ—La1—O1	89.71 (19)	O6—C3—C13	118.0 (6)
O4ⁱⁱ—La1—O1	90.01 (18)	O7—C4—O8	125.1 (6)
O8ⁱⁱⁱ—La1—O1	148.99 (15)	O7—C4—C15	118.1 (6)
O5—La1—O1	76.07 (17)	O8—C4—C15	116.8 (6)
O12ⁱ—La1—O13	85.0 (2)	O10—C5—O9	121.9 (6)
O4ⁱⁱ—La1—O13	94.3 (2)	O10—C5—C19	118.6 (5)
O8ⁱⁱⁱ—La1—O13	66.51 (17)	O9—C5—C19	119.5 (5)
O5—La1—O13	68.62 (19)	O10—C5—La2ⁱ	51.4 (3)
O1—La1—O13	144.36 (18)	O9—C5—La2ⁱ	70.7 (3)
O12ⁱ—La1—O9	82.32 (17)	C19—C5—La2ⁱ	169.2 (4)
O4ⁱⁱ—La1—O9	99.13 (19)	O12—C6—O11	124.5 (6)
O8ⁱⁱⁱ—La1—O9	71.23 (15)	O12—C6—C21	117.0 (6)
O5—La1—O9	152.80 (17)	O11—C6—C21	118.5 (6)
O1—La1—O9	78.20 (15)	C12—C7—C8	118.7 (7)
O13—La1—O9	135.42 (17)	C12—C7—C1	120.0 (7)
O3ⁱⁱ—La2—O6	78.3 (2)	C8—C7—C1	121.4 (6)
O3ⁱⁱ—La2—O2	119.00 (18)	C7—C8—C9	122.3 (7)
O6—La2—O2	84.73 (19)	C7—C8—H8A	118.9
O3ⁱⁱ—La2—O7^iv	142.19 (18)	C9—C8—H8A	118.9
O6—La2—O7^iv	135.92 (17)	C10—C9—C8	117.8 (7)
O2—La2—O7^iv	85.41 (16)	C10—C9—C2	120.8 (7)
O3ⁱⁱ—La2—O11	77.4 (2)	C8—C9—C2	121.4 (7)
O6—La2—O11	139.53 (17)	C9—C10—C11	121.0 (9)
O2—La2—O11	79.43 (17)	C9—C10—H10A	119.5
O7^iv—La2—O11	79.77 (17)	C11—C10—H10A	119.5
O3ⁱⁱ—La2—O10ⁱⁱ	89.1 (2)	C10—C11—C12	119.0 (10)
O6—La2—O10ⁱⁱ	86.12 (17)	C10—C11—H11A	120.5
O2—La2—O10ⁱⁱ	147.73 (16)	C12—C11—H11A	120.5
O7^iv—La2—O10ⁱⁱ	79.90 (17)	C7—C12—C11	121.2 (9)
O11—La2—O10ⁱⁱ	125.15 (16)	C7—C12—H12A	119.4
O3ⁱⁱ—La2—O14	145.5 (2)	C11—C12—H12A	119.4
O6—La2—O14	70.65 (17)	C14—C13—C18	119.0 (6)
O2—La2—O14	73.46 (17)	C14—C13—C3	119.4 (6)
O7^iv—La2—O14	65.34 (16)	C18—C13—C3	121.6 (6)
O11—La2—O14	136.85 (18)	C13—C14—C15	121.3 (6)
O10ⁱⁱ—La2—O14	74.30 (17)	C13—C14—H14C	119.4
O3ⁱⁱ—La2—O9ⁱⁱ	77.81 (16)	C15—C14—H14C	119.4
O6—La2—O9ⁱⁱ	128.00 (17)	C16—C15—C14	119.6 (6)
O2—La2—O9ⁱⁱ	146.91 (15)	C16—C15—C4	120.3 (6)
O7^iv—La2—O9ⁱⁱ	67.88 (15)	C14—C15—C4	120.0 (6)
O11—La2—O9ⁱⁱ	76.96 (15)	C17—C16—C15	119.3 (7)
O10ⁱⁱ—La2—O9ⁱⁱ	48.19 (14)	C17—C16—H16A	120.3
O14—La2—O9ⁱⁱ	109.79 (15)	C15—C16—H16A	120.3
C1—O1—La1	154.9 (4)	C16—C17—C18	121.1 (7)
C1—O2—La2	112.7 (4)	C16—C17—H17A	119.5
C2—O3—La2ⁱ	158.2 (6)	C18—C17—H17A	119.5
C2—O4—La1ⁱ	137.7 (5)	C13—C18—C17	119.7 (7)
C3—O5—La1	150.0 (5)	C13—C18—H18A	120.1
C3—O6—La2	149.2 (5)	C17—C18—H18A	120.1
C4—O7—La2^iv	135.1 (4)	C24—C19—C20	119.2 (6)
C4—O8—La1^v	134.3 (4)	C24—C19—C5	122.8 (6)
C5—O9—La1	145.9 (4)	C20—C19—C5	118.1 (6)
C5—O9—La2ⁱ	84.7 (3)	C21—C20—C19	120.0 (6)
La1—O9—La2ⁱ	122.32 (17)	C21—C20—H20A	120.0
C5—O10—La2ⁱ	105.0 (4)	C19—C20—H20A	120.0
C6—O11—La2	141.0 (5)	C20—C21—C22	120.1 (6)
C6—O12—La1ⁱⁱ	142.2 (5)	C20—C21—C6	119.2 (6)
La1—O13—H13B	125.4	C22—C21—C6	120.7 (6)
La1—O13—H13A	109.3	C23—C22—C21	119.1 (7)
H13B—O13—H13A	125.2	C23—C22—H22A	120.4
La2—O14—H14A	96.9	C21—C22—H22A	120.4
La2—O14—H14B	134.0	C22—C23—C24	121.4 (7)
H14A—O14—H14B	120.6	C22—C23—H23A	119.3
O2—C1—O1	122.1 (6)	C24—C23—H23A	119.3
O2—C1—C7	118.9 (6)	C23—C24—C19	120.2 (7)
O1—C1—C7	119.0 (6)	C23—C24—H24A	119.9
O2—C1—La2	45.6 (3)	C19—C24—H24A	119.9
O1—C1—La2	76.5 (4)

D—H···A	D—H	H···A	D···A	D—H···A
O13—H13A···O2^vi	0.85	2.27	2.814 (8)	122
O13—H13B···O11^vi	0.85	2.20	2.976 (8)	152
O14—H14B···O10^v	0.85	1.97	2.795 (8)	162
O14—H14A···O7^iv	0.85	2.10	2.656 (8)	122

Table 1

Hydrogen-bond geometry (Å, °)

D—H⋯A	D—H	H⋯A	D⋯A	D—H⋯A
O13—H13A⋯O2ⁱ	0.85	2.27	2.814 (8)	122
O13—H13B⋯O11ⁱ	0.85	2.20	2.976 (8)	152
O14—H14B⋯O10ⁱⁱ	0.85	1.97	2.795 (8)	162
O14—H14A⋯O7ⁱⁱⁱ	0.85	2.10	2.656 (8)	122

Symmetry codes: (i) ; (ii) ; (iii) .

4 in total

1. Synthesis, structure and optical properties of rare-earth benzene carboxylates.

Authors: Partha Mahata; K V Ramya; Srinivasan Natarajan
Journal: Dalton Trans Date: 2007-07-13 Impact factor: 4.390

2. A short history of SHELX.

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

3. Structural and NMR characterization of Sm(III), Eu(III), and Yb(III) complexes of an amide based polydentate ligand exhibiting paramagnetic chemical exchange saturation transfer abilities.

Authors: Jason D Dorweiler; Victor N Nemykin; Amanda N Ley; Robert D Pike; Steven M Berry
Journal: Inorg Chem Date: 2009-10-05 Impact factor: 5.165

4. {Ln(III)[mu(5)-kappa(2),kappa(1),kappa(1),kappa(1),kappa(1)-1,2-(CO2)(2)C6H4][isonicotine][H2O]}(2)Cu(I) x X (Ln = Eu, Sm, Nd; X = ClO4-, Cl-): a new pillared-layer approach to heterobimetallic 3d-4f 3d-network solids.

Authors: Jian-Wen Cheng; Shou-Tian Zheng; En Ma; Guo-Yu Yang
Journal: Inorg Chem Date: 2007-11-09 Impact factor: 5.165

4 in total

1 in total

1. Poly[[diaqua-bis-(μ(3)-isonicotinato-κN:O:O')bis-(μ(2)-isonicotinato-κN:O)gadolinium(III)disiliver(I)] nitrate monohydrate].

Authors: Le-Qing Fan; Ji-Huai Wu
Journal: Acta Crystallogr Sect E Struct Rep Online Date: 2010-09-11

1 in total