Crystal structure and magnetic properties of the layered hybrid organic–inorganic compounds M2(OH)2(C14H8O4) (M = Mn, Fe)

Sibille, R.; Mazet, T.; Diop, L.V.B.; François, M.

doi:10.1107/S2052520621007988

Crystal structure and magnetic properties of the layered hybrid organic–inorganic compounds M₂(OH)₂(C₁₄H₈O₄) (M = Mn, Fe)

R. Sibille, T. Mazet, L. V. B. Diop and M. François

The structure of M₂(OH)₂(bpdc) (bpdc = biphenyl dicarboxylate, C₁₄H₈O₄) is distinct from that of the isoreticular compounds M₂(OH)₂(bdc) (bdc = benzene dicarboxylate, C₈H₄O₄) (M = Mn, Fe), in the sense that no disorder of the bpdc molecules from one layer to the other needs to be considered. The global symmetry is lower in the bpdc compounds (P1) than in the bdc compounds (C2/m). Both Mn₂(OH)₂(bpdc) and Fe₂(OH)₂(bpdc) order magnetically at 36.8 and 46.5 K, respectively, and can be considered as uncompensated antiferromagnets, whereas Mn₂(OH)₂(bdc) (Néel temperature T_N = 38.5 K) and Fe₂(OH)₂(bdc) (T_N = 66 K) are compensated antiferromagnets.

Keywords: crystal structure; MOF; magnetism; hybrid compound; layered compound.

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Supporting information

	Crystallographic Information File (CIF) https://doi.org/10.1107/S2052520621007988/ra5101sup1.cif Contains datablocks global, I
	Rietveld powder data file (CIF format) https://doi.org/10.1107/S2052520621007988/ra5101Isup2.rtv Contains datablock I
	Portable Document Format (PDF) file https://doi.org/10.1107/S2052520621007988/ra5101sup3.pdf 1) Figure S1: Raw synchrotron data for M2(OH)2bpdc, M = Fe (blue) 2) Table S1: Fractional atomic coordinates for Mn2(OH)2(bpdc) 3) Comparison of M-O distances in M(OH)2(bdc) Figure S1: Raw synchrotron data for M2(OH)2bpdc, M = Fe and Mn. Table S1: Fractional atomic coordinates for Mn2(OH)2(bpdc) Comparison M-O distances in M2(OH)2(bdc)

CCDC reference: 2101204

Computing details top

Program(s) used to solve structure: FOX; program(s) used to refine structure: FULLPROF; molecular graphics: DIAMOND; software used to prepare material for publication: WORD.

(I) top

Crystal data top

C₁₄H₁₀Mn₂O₆	V = 315.35 (2) Å³
M_r = 384.10	Z = 1
Triclinic, P1	F(000) = 382
Hall symbol: -P 1	D_x = 2.022 Mg m⁻³
a = 14.2037 (4) Å	Synchrotron radiation
b = 6.47851 (8) Å	µ = 2.58 mm⁻¹
c = 3.4532 (2) Å	T = 293 K
α = 90.091 (9)°	light brown
β = 96.839 (13)°	cylinder, × 0.5 mm
γ = 91.7101 (16)°

Data collection top

CRISTAL Beamline, SOLEIL diffractometer	Data collection mode: transmission
Radiation source: CRISTAL Beamline, SOLEIL	2θ_min = 2.511°, 2θ_max = 44.003°, 2θ_step = 0.004°

Refinement top

R_p = 0.106	Profile function: T-C-H Pseudo-Voigt function
R_wp = 0.135	23 parameters
R_exp = 0.189	0 restraints
R_Bragg = 0.066	H-atom parameters not refined
10374 data points

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å²) top

	x	y	z	U_iso*/U_eq
M_1	−0.37529	0.61064	0.95341	0.041 (2)*
M_2	−0.39876	0.73540	0.93222	0.041 (2)*
M_3	−0.28226	0.55603	0.94477	0.041 (2)*
M_4	−0.22387	0.66881	0.90837	0.041 (2)*
M_5	−0.25743	0.35254	0.98226	0.041 (2)*
M_6	−0.32925	0.20550	1.02876	0.041 (2)*
M_7	−0.31615	0.07181	1.05409	0.041 (2)*
M_8	−0.42235	0.25958	1.03754	0.041 (2)*
M_9	−0.47352	0.17741	1.06593	0.041 (2)*
M_10	−0.44861	0.46419	1.00014	0.041 (2)*
M_24	−0.15499	0.29272	0.97265	0.041 (2)*
M_25	−0.14087	0.10376	1.00938	0.041 (2)*
M_26	−0.09594	0.43893	0.92907	0.041 (2)*
AB	0.00000	0.00000	0.00000	0.019 (2)*
CD	0.00000	0.50000	0.50000	0.027 (3)*
GH	0.0499 (6)	0.1721 (14)	0.551 (10)	0.010 (4)*

Geometric parameters (Å, º) top

AB—GHⁱ	2.09 (3)	CD—CDⁱ	3.4532 (2)
AB—GHⁱⁱ	2.09 (3)	CD—CD^vi	3.4532 (2)
AB—M_25ⁱ	2.1336 (1)	M_1—M_2	0.8833 (1)
AB—M_25ⁱⁱ	2.1336 (1)	M_1—M_3	1.3818 (1)
AB—GH	2.23 (3)	M_1—M_10	1.4115 (1)
AB—GHⁱⁱⁱ	2.23 (3)	M_3—M_4	1.1074 (1)
CD—M_26	2.1586 (2)	M_3—M_5	1.3771 (1)
CD—M_26^iv	2.1586 (2)	M_5—M_6	1.3983 (1)
CD—GH	2.260 (9)	M_5—M_24	1.5210 (1)
CD—GH^iv	2.260 (9)	M_24—M_25	1.2506 (1)
CD—M_26ⁱ	2.2860 (3)	M_24—M_26	1.2675 (1)
CD—M_26^v	2.2860 (3)	M_6—M_7	0.8935 (1)
AB—ABⁱ	3.4532 (2)	M_6—M_8	1.3818 (1)
AB—AB^vi	3.4532 (2)	M_8—M_9	0.9029 (1)
AB—CD^vii	3.6683 (2)	M_8—M_10	1.3898 (1)
AB—CD^viii	3.6731 (2)	M_10—M_1	1.4115 (1)
AB—CDⁱ	3.6731 (2)	M_10—M_10^ix	1.5449 (1)
AB—CD	3.6683 (2)

M_25—M_24—M_26	128.884 (5)	M_3—M_1—M_10	122.498 (6)
M_5—M_24—M_25	114.749 (4)	M_1—M_3—M_5	120.478 (4)
M_5—M_24—M_26	116.367 (6)	CD—M_26—CD^vi	101.925 (12)
M_6—M_5—M_24	121.860 (6)	AB—GH—AB^vi	105.9 (11)
M_5—M_6—M_8	121.934 (6)	AB—GH—CD	109.4 (8)
M_6—M_8—M_10	121.064 (4)	AB^vi—GH—CD	115.1 (8)
M_1—M_10—M_8	116.289 (5)

Symmetry codes: (i) x, y, z−1; (ii) −x, −y, −z+1; (iii) −x, −y, −z; (iv) −x, −y+1, −z+1; (v) −x, −y+1, −z+2; (vi) x, y, z+1; (vii) x, y−1, z−1; (viii) x, y−1, z; (ix) −x−1, −y+1, −z+2.

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Crystal structure and magnetic properties of the layered hybrid organic–inorganic compounds M₂(OH)₂(C₁₄H₈O₄) (M = Mn, Fe)

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