Synchrotron charge-density studies in materials chemistry: 16 K X-ray charge density of a new magnetic metal-organic framework material, [Mn2(C8H4O4)2(C3H7NO)2]

Poulsen, R.D.; Bentien, A.; Graber, T.; Iversen, B.B.

doi:10.1107/S010876730401699X

Synchrotron charge-density studies in materials chemistry: 16 K X-ray charge density of a new magnetic metal-organic framework material, [Mn₂(C₈H₄O₄)₂(C₃H₇NO)₂]

R. D. Poulsen, A. Bentien, T. Graber and B. B. Iversen

A new magnetic metal-organic framework material, [Mn₂(C₈OH₄₄)₂(C₃H₇NO)₂], has been synthesized. The structure consists of chains of carboxylate-bridged Mn atoms interconnected with acid linkers, giving much larger interchain than intrachain Mn

Mn distances. Magnetic susceptibility data fitted to a Curie–Weiss law give Θ = −5.7 K and a total magnetic moment of 5.96 µ_B. The heat capacity provides no evidence of magnetic ordering down to 2 K. The X-ray charge density was determined from multipole modeling of 16 (1) K single-crystal synchrotron-radiation data. The structural surroundings of the two unique Mn centers are different, but orbital population analysis reveals close to single electron occupation in all 3d orbitals of both Mn sites, in agreement with the magnetic susceptibility measurements. Bader topological analysis shows the presence of direct chemical Mn

Mn interactions only in two out of three intrachain contacts, which suggests a `broken' chain. The topological measures and approximate energy densities at the metal–ligand bond critical points (ρ, ∇²ρ, G, V and H) indicate ionic interactions. Formal electron counting suggests mixed-valence Mn sites, but this hypothesis is not supported by the Bader atomic charges [q(Mn) = +2.035 and +2.031].

Keywords: metal-organic framework; electron density; physical properties; topological analysis; synchrotron radiation.

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Supporting information

	Crystallographic Information File (CIF) https://doi.org/10.1107/S010876730401699X/xc5018sup1.cif Contains datablock DMF
	Portable Document Format (PDF) file https://doi.org/10.1107/S010876730401699X/xc5018sup2.pdf Topological properties, bond angles around Mn, DTA and TGA graphs
	Structure factor file (CIF format) https://doi.org/10.1107/S010876730401699X/xc5018Isup3.hkl Contains datablock I

Computing details top

Data collection: SMART (Bruker, 1998); cell refinement: SMART and SAINT (Bruker,1998); data reduction: SAINT (Bruker, 1998); program(s) used to solve structure: SHELXTL (Sheldrick, 1997); program(s) used to refine structure: Koritsanszky et al., (2003); molecular graphics: Koritsanszky et al., (2003); software used to prepare material for publication: Koritsanszky et al., (2003).

Figures top

(I) top

Crystal data top

C₂₂H₂₂Mn₂N₂O₁₀	Z = 4
M_r = 584.30	D_x = 1.607 Mg m⁻³
Monoclinic, P2₁/c	Synchrotron radiation, λ = 0.4200 Å
Hall symbol: -P 2ybc	Cell parameters from 11589 reflections
a = 13.3957 Å	θ = 4.3–57.4°
b = 10.1716 Å	µ = 0.22 mm⁻¹
c = 17.7250 Å	T = 15 K
β = 90.090°	Trapez shape, colourless
V = 2415.13 Å³	0.04 × 0.03 × 0.02 mm

Data collection top

APS,ChemMat Cars, Huber type diffractometer	12180 reflections with I > 2u(I)
ϕscan	R_int = 0.047
Absorption correction: multi-scan (Blessing, R., SORTAV, 1980)	θ_max = 60.0°
T_min = 0.992, T_max = 0.997	h = −30→30
99809 measured reflections	k = 0→23
18127 independent reflections	l = 0→31

Refinement top

Refinement on F²	888 parameters
Least-squares matrix: full	3 restraints
R[F² > 2σ(F²)] = 0.022	H parameters constrained
wR(F²) = 0.045	w2 = q/[s²(F_o²) + (0.00 P)² + 0.00 P + 0.00 + 0.00 sin(th)] where P = (0.3333 F_o² + 0.6667 F_c²) q = 1.0
S = 0.71	(Δ/σ)_max = 0.001
12180 reflections

Crystal data top

C₂₂H₂₂Mn₂N₂O₁₀	V = 2415.13 Å³
M_r = 584.30	Z = 4
Monoclinic, P2₁/c	Synchrotron radiation, λ = 0.4200 Å
a = 13.3957 Å	µ = 0.22 mm⁻¹
b = 10.1716 Å	T = 15 K
c = 17.7250 Å	0.04 × 0.03 × 0.02 mm
β = 90.090°

Data collection top

APS,ChemMat Cars, Huber type diffractometer	18127 independent reflections
Absorption correction: multi-scan (Blessing, R., SORTAV, 1980)	12180 reflections with I > 2u(I)
T_min = 0.992, T_max = 0.997	R_int = 0.047
99809 measured reflections

Refinement top

R[F² > 2σ(F²)] = 0.022	888 parameters
wR(F²) = 0.045	3 restraints
S = 0.71	H parameters constrained
12180 reflections

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

	x	y	z	U_iso*/U_eq	Occ. (<1)
MN(1)	0.11157 (1)	0.58200 (2)	0.53151 (2)	0.003
MN(2)	0.346075 (8)	0.422982 (13)	0.514599 (12)	0.003
O(1)	0.10790 (5)	0.44123 (7)	0.61832 (6)	0.007
O(2)	0.23920 (5)	0.31575 (7)	0.58531 (6)	0.006
O(8)	0.04688 (5)	0.40134 (7)	0.45250 (6)	0.006
O(9)	0.20079 (5)	0.47663 (7)	0.44529 (6)	0.005
O(11)	0.18082 (5)	0.71125 (7)	0.60932 (6)	0.007
O(12)	0.31862 (6)	0.60033 (7)	0.57821 (7)	0.007
O(18)	0.45359 (5)	0.34893 (7)	0.59312 (6)	0.007
O(19)	0.41687 (5)	0.51357 (8)	0.42224 (6)	0.007
O(21)	0.09789 (5)	0.73933 (7)	0.44926 (6)	0.007
O(31)	0.35921 (6)	0.23426 (7)	0.45372 (6)	0.007
N(21)	0.02645 (5)	0.92170 (7)	0.39741 (5)	0.007
N(31)	0.37204 (5)	0.01035 (7)	0.45539 (6)	0.008
C(1)	0.16975 (5)	0.34947 (6)	0.62919 (5)	0.005
C(2)	0.15764 (5)	0.27510 (6)	0.70201 (5)	0.005
C(3)	0.06421 (5)	0.26948 (6)	0.73736 (5)	0.006
C(4)	0.05452 (5)	0.29480 (6)	0.30633 (5)	0.005
C(5)	0.13933 (4)	0.34778 (6)	0.34197 (5)	0.005
C(6)	0.23294 (5)	0.34258 (6)	0.30659 (5)	0.006
C(7)	0.24108 (5)	0.21635 (6)	0.73574 (5)	0.006
C(8)	0.12870 (4)	0.41096 (6)	0.41744 (5)	0.004
C(11)	0.27059 (5)	0.67624 (6)	0.62114 (5)	0.005
C(12)	0.32135 (5)	0.73132 (6)	0.69018 (5)	0.005
C(13)	0.42527 (5)	0.72340 (6)	0.69845 (5)	0.006
C(14)	0.47051 (5)	0.72304 (6)	0.26281 (5)	0.006
C(15)	0.41319 (4)	0.66269 (6)	0.31915 (5)	0.005
C(16)	0.30910 (5)	0.65710 (6)	0.31115 (5)	0.006
C(17)	0.26377 (5)	0.79080 (6)	0.74675 (5)	0.006
C(18)	0.46253 (4)	0.60458 (6)	0.38848 (5)	0.004
C(21)	0.02517 (5)	0.81442 (7)	0.44054 (5)	0.007
C(22)	0.11533 (6)	0.95737 (8)	0.35428 (7)	0.011
C(23)	−0.06256 (6)	1.00266 (8)	0.38775 (6)	0.010
C(31)	0.35203 (5)	0.12665 (7)	0.48696 (5)	0.007
C(32)	0.36005 (6)	−0.11238 (7)	0.49710 (6)	0.011
C(33)	0.40616 (8)	0.00148 (8)	0.37752 (7)	0.014
H(3)	−0.00017	0.31526	0.71116	0.007
H(4)	−0.01818	0.30377	0.33260	0.007
H(6)	0.29817	0.38399	0.33397	0.007
H(7)	0.31224	0.21674	0.70671	0.008
H(13)	0.47039	0.67629	0.65553	0.008
H(14)	0.55092	0.72839	0.26900	0.008
H(16)	0.26398	0.61242	0.35491	0.007
H(17)	0.18336	0.79641	0.74057	0.008
H(21)	−0.04342	0.79048	0.46985	0.008
H(22A)	0.17446	0.88421	0.36428	0.017
H(22B)	0.14148	1.05522	0.37205	0.017
H(22C)	0.09654	0.95951	0.29380	0.017
H(23A)	−0.12285	0.96498	0.42394	0.015
H(23B)	−0.08679	0.99931	0.32840	0.015
H(23C)	−0.04574	1.10494	0.40363	0.015
H(31)	0.32780	0.12758	0.54528	0.009
H(32A)	0.33931	−0.09045	0.55585	0.017
H(32B)	0.43073	−0.16760	0.49640	0.017
H(32C)	0.30089	−0.17189	0.47070	0.017
H(33A)	0.41420	0.10087	0.35368	0.020
H(33B)	0.35163	−0.05439	0.34381	0.020
H(33C)	0.47888	−0.04886	0.37570	0.020
DUM0	0.14720	0.62760	0.51980	0.000	0.0000
DUM1	0.13900	0.53170	0.52200	0.000	0.0000
DUM2	0.38840	0.38650	0.50600	0.000	0.0000
DUM3	0.37970	0.46730	0.50230	0.000	0.0000

Atomic displacement parameters (Å²) top

	U¹¹	U²²	U³³	U¹²	U¹³	U²³
MN(1)	0.00375 (4)	0.00363 (4)	0.00242 (9)	−0.00010 (3)	−0.00060 (3)	−0.00020 (4)
MN(2)	0.00364 (3)	0.00348 (3)	0.00243 (9)	0.00004 (2)	−0.00043 (3)	0.00017 (4)
O(1)	0.0081 (2)	0.0070 (2)	0.0052 (4)	0.0020 (2)	0.0002 (2)	0.0027 (2)
O(2)	0.0069 (2)	0.0075 (2)	0.0048 (4)	0.0004 (2)	0.0024 (2)	0.0016 (2)
O(8)	0.0044 (2)	0.0096 (2)	0.0046 (4)	0.0002 (2)	0.0006 (2)	−0.0010 (2)
O(9)	0.0056 (2)	0.0062 (2)	0.0034 (4)	−0.0010 (1)	−0.0012 (2)	−0.0014 (2)
O(11)	0.0058 (2)	0.0075 (2)	0.0073 (4)	0.0001 (2)	−0.0033 (2)	−0.0018 (2)
O(12)	0.0097 (2)	0.0072 (2)	0.0052 (4)	0.0008 (2)	0.0001 (2)	−0.0031 (2)
O(18)	0.0064 (2)	0.0081 (2)	0.0062 (4)	−0.0015 (2)	−0.0036 (2)	0.0025 (2)
O(19)	0.0066 (2)	0.0084 (2)	0.0049 (4)	−0.0010 (2)	0.0001 (2)	0.0034 (2)
O(21)	0.0077 (2)	0.0067 (2)	0.0071 (4)	0.0011 (2)	−0.0007 (2)	0.0024 (2)
O(31)	0.0111 (2)	0.0046 (2)	0.0057 (4)	0.0001 (2)	0.0002 (2)	0.0000 (2)
N(21)	0.0076 (2)	0.0058 (2)	0.0087 (4)	0.0011 (2)	−0.0001 (2)	0.0024 (2)
N(31)	0.0117 (2)	0.0046 (2)	0.0071 (4)	−0.0002 (2)	0.0030 (2)	−0.0006 (2)
C(1)	0.0057 (2)	0.0058 (2)	0.0032 (4)	−0.0003 (1)	0.0001 (2)	0.0009 (2)
C(2)	0.0052 (2)	0.0064 (2)	0.0032 (4)	0.0003 (1)	0.0002 (2)	0.0012 (2)
C(3)	0.0052 (2)	0.0076 (2)	0.0044 (4)	0.0009 (1)	−0.0001 (2)	0.0019 (2)
C(4)	0.0047 (2)	0.0078 (2)	0.0038 (4)	−0.0008 (1)	0.0004 (2)	−0.0022 (2)
C(5)	0.0048 (2)	0.0066 (2)	0.0030 (4)	−0.0004 (1)	−0.0002 (2)	−0.0011 (2)
C(6)	0.0050 (2)	0.0080 (2)	0.0037 (4)	−0.0006 (1)	−0.0006 (2)	−0.0017 (2)
C(7)	0.0048 (2)	0.0088 (2)	0.0050 (4)	0.0002 (1)	0.0002 (2)	0.0022 (2)
C(8)	0.0046 (2)	0.0057 (2)	0.0028 (4)	−0.0001 (1)	−0.0004 (2)	−0.0006 (2)
C(11)	0.0060 (2)	0.0053 (2)	0.0038 (4)	−0.0004 (1)	−0.0009 (2)	−0.0012 (2)
C(12)	0.0048 (2)	0.0065 (2)	0.0033 (4)	0.0000 (1)	−0.0010 (2)	−0.0014 (2)
C(13)	0.0054 (2)	0.0089 (2)	0.0042 (4)	0.0005 (1)	−0.0007 (2)	−0.0030 (2)
C(14)	0.0045 (2)	0.0093 (2)	0.0049 (4)	−0.0007 (1)	−0.0007 (2)	0.0024 (2)
C(15)	0.0044 (2)	0.0061 (2)	0.0031 (4)	−0.0001 (1)	−0.0011 (2)	0.0014 (2)
C(16)	0.0049 (2)	0.0077 (2)	0.0044 (4)	−0.0004 (1)	−0.0008 (2)	0.0023 (2)
C(17)	0.0045 (2)	0.0085 (2)	0.0049 (4)	0.0002 (1)	−0.0007 (2)	−0.0023 (2)
C(18)	0.0049 (2)	0.0054 (2)	0.0030 (4)	−0.0002 (1)	−0.0013 (2)	0.0008 (2)
C(21)	0.0073 (2)	0.0063 (2)	0.0068 (4)	0.0006 (2)	−0.0008 (2)	0.0012 (2)
C(22)	0.0105 (2)	0.0095 (2)	0.0135 (5)	0.0009 (2)	0.0023 (2)	0.0045 (3)
C(23)	0.0099 (2)	0.0086 (2)	0.0125 (5)	0.0029 (2)	−0.0011 (2)	0.0015 (3)
C(31)	0.0095 (2)	0.0051 (2)	0.0061 (4)	0.0005 (1)	0.0005 (2)	0.0000 (2)
C(32)	0.0147 (3)	0.0063 (2)	0.0117 (5)	−0.0001 (2)	0.0008 (3)	0.0013 (3)
C(33)	0.0213 (4)	0.0084 (3)	0.0119 (5)	−0.0024 (2)	0.0066 (3)	−0.0025 (3)

Geometric parameters (Å, º) top

MN(1)—MN(1)ⁱ	3.5992 (4)	C(3)—C(4)ⁱⁱⁱ	1.3925 (11)
MN(1)—MN(2)	3.5465 (2)	C(3)—H(3)	1.0840 (7)
MN(2)—MN(2)ⁱⁱ	4.4425 (2)	C(4)—C(5)	1.4064 (9)
MN(1)—O(1)	2.1026 (10)	C(4)—H(4)	1.0840 (7)
MN(1)—O(8)	2.4668 (9)	C(5)—C(6)	1.4040 (9)
MN(1)—O(8)ⁱ	2.1484 (7)	C(5)—C(8)	1.4910 (11)
MN(1)—O(9)	2.2178 (9)	C(6)—C(7)^iv	1.3958 (12)
MN(1)—O(11)	2.1183 (9)	C(6)—H(6)	1.0840 (7)
MN(1)—O(21)	2.1723 (10)	C(7)—H(7)	1.0840 (7)
MN(1)—C(8)	2.6776 (8)	C(11)—C(12)	1.5070 (11)
MN(2)—O(2)	2.1945 (8)	C(12)—C(13)	1.4019 (9)
MN(2)—O(9)	2.3637 (8)	C(12)—C(17)	1.4032 (10)
MN(2)—O(12)	2.1592 (8)	C(13)—C(14)^v	1.4011 (11)
MN(2)—O(18)	2.1383 (9)	C(13)—H(13)	1.0840 (8)
MN(2)—O(19)	2.1056 (9)	C(14)—C(15)	1.4021 (10)
MN(2)—O(31)	2.2092 (8)	C(14)—H(14)	1.0840 (6)
O(1)—C(1)	1.2627 (9)	C(15)—C(16)	1.4024 (8)
O(2)—C(1)	1.2611 (10)	C(15)—C(18)	1.5145 (11)
O(8)—C(8)	1.2647 (10)	C(16)—C(17)^vi	1.3966 (11)
O(9)—C(8)	1.2732 (10)	C(16)—H(16)	1.0840 (8)
O(11)—C(11)	1.2713 (9)	C(17)—H(17)	1.0840 (6)
O(12)—C(11)	1.2612 (11)	C(21)—H(21)	1.0840 (7)
O(18)—C(18)ⁱⁱ	1.2615 (9)	C(22)—H(22A)	1.1010 (8)
O(19)—C(18)	1.2610 (10)	C(22)—H(22B)	1.1010 (9)
O(21)—C(21)	1.2473 (9)	C(22)—H(22C)	1.1010 (12)
O(31)—C(31)	1.2469 (11)	C(23)—H(23A)	1.1010 (9)
N(21)—C(21)	1.3324 (11)	C(23)—H(23B)	1.1010 (11)
N(21)—C(22)	1.4617 (11)	C(23)—H(23C)	1.1010 (8)
N(21)—C(23)	1.4589 (9)	C(31)—H(31)	1.0840 (9)
N(31)—C(31)	1.3360 (10)	C(32)—H(32A)	1.1010 (11)
N(31)—C(32)	1.4599 (11)	C(32)—H(32B)	1.1010 (8)
N(31)—C(33)	1.4575 (14)	C(32)—H(32C)	1.1010 (9)
C(1)—C(2)	1.5050 (11)	C(33)—H(33A)	1.1010 (9)
C(2)—C(3)	1.4017 (9)	C(33)—H(33B)	1.1010 (11)
C(2)—C(7)	1.4006 (10)	C(33)—H(33C)	1.1010 (10)

O(1)—MN(1)—O(8)	84.24 (4)	C(5)—C(4)—H(4)	120.03 (8)
O(1)—MN(1)—O(8)ⁱ	86.15 (3)	C(4)—C(5)—C(6)	120.42 (8)
O(1)—MN(1)—O(9)	100.86 (3)	C(4)—C(5)—C(8)	119.33 (6)
O(1)—MN(1)—O(11)	87.52 (4)	C(6)—C(5)—C(8)	120.24 (6)
O(1)—MN(1)—O(21)	172.22 (3)	C(5)—C(6)—C(7)^iv	119.28 (7)
O(1)—MN(1)—C(8)	96.45 (3)	C(5)—C(6)—H(6)	120.34 (8)
O(8)—MN(1)—O(8)ⁱ	77.72 (3)	C(7)^iv—C(6)—H(6)	120.38 (6)
O(8)—MN(1)—O(9)	55.81 (2)	C(2)—C(7)—C(6)ⁱⁱⁱ	120.26 (6)
O(8)—MN(1)—O(11)	170.08 (3)	C(2)—C(7)—H(7)	119.84 (8)
O(8)—MN(1)—O(21)	97.97 (4)	C(6)ⁱⁱⁱ—C(7)—H(7)	119.90 (7)
O(8)—MN(1)—C(8)	28.08 (2)	O(8)—C(8)—O(9)	120.49 (9)
O(8)ⁱ—MN(1)—O(9)	131.50 (4)	O(8)—C(8)—C(5)	119.45 (7)
O(8)ⁱ—MN(1)—O(11)	107.27 (3)	O(9)—C(8)—C(5)	120.04 (7)
O(8)ⁱ—MN(1)—O(21)	87.03 (3)	O(11)—C(11)—O(12)	123.74 (9)
O(8)ⁱ—MN(1)—C(8)	103.69 (3)	O(11)—C(11)—C(12)	117.07 (7)
O(9)—MN(1)—O(11)	120.84 (3)	O(12)—C(11)—C(12)	119.18 (7)
O(9)—MN(1)—O(21)	86.48 (3)	C(11)—C(12)—C(13)	120.68 (7)
O(9)—MN(1)—C(8)	28.20 (2)	C(11)—C(12)—C(17)	119.52 (6)
O(11)—MN(1)—O(21)	90.93 (4)	C(13)—C(12)—C(17)	119.80 (7)
O(11)—MN(1)—C(8)	148.98 (3)	C(12)—C(13)—C(14)^v	119.40 (7)
O(21)—MN(1)—C(8)	88.80 (3)	C(12)—C(13)—H(13)	120.44 (8)
O(2)—MN(2)—O(9)	82.77 (3)	C(14)^v—C(13)—H(13)	120.16 (6)
O(2)—MN(2)—O(12)	90.30 (3)	C(13)^vi—C(14)—C(15)	120.89 (6)
O(2)—MN(2)—O(18)	83.83 (3)	C(13)^vi—C(14)—H(14)	119.43 (7)
O(2)—MN(2)—O(19)	163.06 (4)	C(15)—C(14)—H(14)	119.68 (8)
O(2)—MN(2)—O(31)	84.24 (3)	C(14)—C(15)—C(16)	119.42 (7)
O(9)—MN(2)—O(12)	86.43 (3)	C(14)—C(15)—C(18)	120.66 (6)
O(9)—MN(2)—O(18)	166.60 (3)	C(16)—C(15)—C(18)	119.91 (7)
O(9)—MN(2)—O(19)	82.32 (3)	C(15)—C(16)—C(17)^vi	119.88 (7)
O(9)—MN(2)—O(31)	90.74 (3)	C(15)—C(16)—H(16)	120.01 (8)
O(12)—MN(2)—O(18)	93.99 (4)	C(17)^vi—C(16)—H(16)	120.12 (6)
O(12)—MN(2)—O(19)	96.76 (4)	C(12)—C(17)—C(16)^v	120.59 (6)
O(12)—MN(2)—O(31)	174.13 (3)	C(12)—C(17)—H(17)	119.85 (8)
O(18)—MN(2)—O(19)	110.88 (3)	C(16)^v—C(17)—H(17)	119.56 (7)
O(18)—MN(2)—O(31)	87.58 (4)	O(18)ⁱⁱ—C(18)—O(19)	125.80 (9)
O(19)—MN(2)—O(31)	87.95 (4)	O(18)ⁱⁱ—C(18)—C(15)	116.80 (7)
MN(1)—O(1)—C(1)	126.80 (7)	O(19)—C(18)—C(15)	117.40 (7)
MN(2)—O(2)—C(1)	134.40 (6)	O(21)—C(21)—N(21)	124.19 (8)
MN(1)—O(8)—MN(1)ⁱ	102.28 (3)	O(21)—C(21)—H(21)	117.75 (8)
MN(1)—O(8)—C(8)	85.26 (5)	N(21)—C(21)—H(21)	118.07 (6)
MN(1)ⁱ—O(8)—C(8)	156.33 (8)	N(21)—C(22)—H(22A)	109.54 (7)
MN(1)—O(9)—MN(2)	101.40 (4)	N(21)—C(22)—H(22B)	109.51 (8)
MN(1)—O(9)—C(8)	96.40 (5)	N(21)—C(22)—H(22C)	109.21 (8)
MN(2)—O(9)—C(8)	134.73 (6)	H(22A)—C(22)—H(22B)	109.65 (8)
MN(1)—O(11)—C(11)	110.28 (6)	H(22A)—C(22)—H(22C)	109.47 (9)
MN(2)—O(12)—C(12)	153.73 (5)	H(22B)—C(22)—H(22C)	109.44 (8)
MN(2)—O(18)—C(18)ⁱⁱ	129.42 (6)	N(21)—C(23)—H(23A)	109.59 (7)
MN(2)—O(19)—C(18)	155.44 (8)	N(21)—C(23)—H(23B)	109.54 (8)
MN(1)—O(21)—C(21)	126.82 (7)	N(21)—C(23)—H(23C)	109.67 (7)
MN(2)—O(31)—C(31)	121.71 (8)	H(23A)—C(23)—H(23B)	109.29 (7)
C(21)—N(21)—C(22)	120.97 (7)	H(23A)—C(23)—H(23C)	109.27 (8)
C(21)—N(21)—C(23)	121.23 (7)	H(23B)—C(23)—H(23C)	109.48 (8)
C(22)—N(21)—C(23)	117.69 (7)	O(31)—C(31)—N(31)	124.31 (10)
C(31)—N(31)—C(32)	121.52 (9)	O(31)—C(31)—H(31)	117.81 (8)
C(31)—N(31)—C(33)	120.99 (8)	N(31)—C(31)—H(31)	117.89 (7)
C(32)—N(31)—C(33)	117.49 (7)	N(31)—C(32)—H(32A)	109.51 (7)
O(1)—C(1)—O(2)	126.26 (9)	N(31)—C(32)—H(32B)	109.59 (7)
O(1)—C(1)—C(2)	115.52 (7)	N(31)—C(32)—H(32C)	109.55 (9)
O(2)—C(1)—C(2)	118.22 (7)	H(32A)—C(32)—H(32B)	109.40 (9)
C(1)—C(2)—C(3)	120.09 (6)	H(32A)—C(32)—H(32C)	109.31 (7)
C(1)—C(2)—C(7)	119.57 (6)	H(32B)—C(32)—H(32C)	109.47 (7)
C(3)—C(2)—C(7)	120.28 (7)	N(31)—C(33)—H(33A)	109.73 (7)
C(2)—C(3)—C(4)ⁱⁱⁱ	119.74 (6)	N(31)—C(33)—H(33B)	109.69 (7)
C(2)—C(3)—H(3)	120.09 (8)	N(31)—C(33)—H(33C)	109.59 (10)
C(4)ⁱⁱⁱ—C(3)—H(3)	120.17 (6)	H(33A)—C(33)—H(33B)	109.32 (11)
C(3)^iv—C(4)—C(5)	119.86 (6)	H(33A)—C(33)—H(33C)	109.20 (8)
C(3)^iv—C(4)—H(4)	120.11 (7)	H(33B)—C(33)—H(33C)	109.29 (8)

C(22)—N(21)—C(21)—O(21)	1.9 (1)	C(6)ⁱⁱⁱ—C(7)—C(2)—C(1)	174.1 (2)
C(23)—N(21)—C(21)—O(21)	177.9 (2)	C(6)ⁱⁱⁱ—C(7)—C(2)—C(3)	−3.2 (1)
C(32)—N(31)—C(31)—O(31)	−178.7 (2)	O(11)—C(11)—C(12)—C(13)	−165.1 (2)
C(33)—N(31)—C(31)—O(31)	0.9 (1)	O(11)—C(11)—C(12)—C(17)	15.0 (1)
O(1)—C(1)—C(2)—C(3)	25.7 (1)	O(12)—C(11)—C(12)—C(13)	14.1 (1)
O(1)—C(1)—C(2)—C(7)	−151.7 (2)	O(12)—C(11)—C(12)—C(17)	−165.8 (2)
O(2)—C(1)—C(2)—C(3)	−154.4 (2)	C(14)^v—C(13)—C(12)—C(11)	179.2 (2)
O(2)—C(1)—C(2)—C(7)	28.2 (1)	C(14)^v—C(13)—C(12)—C(17)	−1.0 (1)
C(4)ⁱⁱⁱ—C(3)—C(2)—C(1)	−177.3 (2)	C(13)^vi—C(14)—C(15)—C(16)	−0.6 (1)
C(4)ⁱⁱⁱ—C(3)—C(2)—C(7)	0.0 (1)	C(13)^vi—C(14)—C(15)—C(18)	179.8 (2)
C(3)^iv—C(4)—C(5)—C(6)	3.5 (1)	C(14)—C(15)—C(18)—O(19)	−154.8 (2)
C(3)^iv—C(4)—C(5)—C(8)	−177.2 (2)	C(16)—C(15)—C(18)—O(19)	25.6 (1)
C(4)—C(5)—C(8)—O(8)	9.0 (1)	C(17)^vi—C(16)—C(15)—C(14)	1.2 (1)
C(4)—C(5)—C(8)—O(9)	−169.3 (2)	C(17)^vi—C(16)—C(15)—C(18)	−179.2 (2)
C(6)—C(5)—C(8)—O(8)	−171.7 (2)	C(16)^v—C(17)—C(12)—C(11)	−179.8 (2)
C(6)—C(5)—C(8)—O(9)	10.0 (1)	C(16)^v—C(17)—C(12)—C(13)	0.3 (1)
C(7)^iv—C(6)—C(5)—C(4)	−0.3 (1)	O(18)ⁱⁱ—C(18)—C(15)—C(14)	24.5 (1)
C(7)^iv—C(6)—C(5)—C(8)	−179.6 (2)	O(18)ⁱⁱ—C(18)—C(15)—C(16)	−155.1 (2)

Symmetry codes: (i) −x, −y+1, −z+1; (ii) −x+1, −y+1, −z+1; (iii) x, −y+1/2, z+1/2; (iv) x, −y+1/2, z−1/2; (v) x, −y+3/2, z+1/2; (vi) x, −y+3/2, z−1/2.

Experimental details

Crystal data
Chemical formula	C₂₂H₂₂Mn₂N₂O₁₀
M_r	584.30
Crystal system, space group	Monoclinic, P2₁/c
Temperature (K)	15
a, b, c (Å)	13.3957, 10.1716, 17.7250
β (°)	90.090
V (Å³)	2415.13
Z	4
Radiation type	Synchrotron, λ = 0.4200 Å
µ (mm⁻¹)	0.22
Crystal size (mm)	0.04 × 0.03 × 0.02

Data collection
Diffractometer	APS,ChemMat Cars, Huber type diffractometer
Absorption correction	Multi-scan (Blessing, R., SORTAV, 1980)
T_min, T_max	0.992, 0.997
No. of measured, independent and observed [I > 2u(I)] reflections	99809, 18127, 12180
R_int	0.047
(sin θ/λ)_max (Å⁻¹)	2.061

Refinement
R[F² > 2σ(F²)], wR(F²), S	0.022, 0.045, 0.71
No. of reflections	12180
No. of parameters	888
No. of restraints	3
H-atom treatment	H parameters constrained
Δρ_max, Δρ_min (e Å⁻³)	?, ?

Computer programs: SMART (Bruker, 1998), SMART and SAINT (Bruker,1998), SAINT (Bruker, 1998), SHELXTL (Sheldrick, 1997), Koritsanszky et al., (2003).

Selected geometric parameters (Å, º) top

MN(1)—MN(1)ⁱ	3.5992 (4)	C(3)—C(4)ⁱⁱⁱ	1.3925 (11)
MN(1)—MN(2)	3.5465 (2)	C(3)—H(3)	1.0840 (7)
MN(2)—MN(2)ⁱⁱ	4.4425 (2)	C(4)—C(5)	1.4064 (9)
MN(1)—O(1)	2.1026 (10)	C(4)—H(4)	1.0840 (7)
MN(1)—O(8)	2.4668 (9)	C(5)—C(6)	1.4040 (9)
MN(1)—O(8)ⁱ	2.1484 (7)	C(5)—C(8)	1.4910 (11)
MN(1)—O(9)	2.2178 (9)	C(6)—C(7)^iv	1.3958 (12)
MN(1)—O(11)	2.1183 (9)	C(6)—H(6)	1.0840 (7)
MN(1)—O(21)	2.1723 (10)	C(7)—H(7)	1.0840 (7)
MN(1)—C(8)	2.6776 (8)	C(11)—C(12)	1.5070 (11)
MN(2)—O(2)	2.1945 (8)	C(12)—C(13)	1.4019 (9)
MN(2)—O(9)	2.3637 (8)	C(12)—C(17)	1.4032 (10)
MN(2)—O(12)	2.1592 (8)	C(13)—C(14)^v	1.4011 (11)
MN(2)—O(18)	2.1383 (9)	C(13)—H(13)	1.0840 (8)
MN(2)—O(19)	2.1056 (9)	C(14)—C(15)	1.4021 (10)
MN(2)—O(31)	2.2092 (8)	C(14)—H(14)	1.0840 (6)
O(1)—C(1)	1.2627 (9)	C(15)—C(16)	1.4024 (8)
O(2)—C(1)	1.2611 (10)	C(15)—C(18)	1.5145 (11)
O(8)—C(8)	1.2647 (10)	C(16)—C(17)^vi	1.3966 (11)
O(9)—C(8)	1.2732 (10)	C(16)—H(16)	1.0840 (8)
O(11)—C(11)	1.2713 (9)	C(17)—H(17)	1.0840 (6)
O(12)—C(11)	1.2612 (11)	C(21)—H(21)	1.0840 (7)
O(18)—C(18)ⁱⁱ	1.2615 (9)	C(22)—H(22A)	1.1010 (8)
O(19)—C(18)	1.2610 (10)	C(22)—H(22B)	1.1010 (9)
O(21)—C(21)	1.2473 (9)	C(22)—H(22C)	1.1010 (12)
O(31)—C(31)	1.2469 (11)	C(23)—H(23A)	1.1010 (9)
N(21)—C(21)	1.3324 (11)	C(23)—H(23B)	1.1010 (11)
N(21)—C(22)	1.4617 (11)	C(23)—H(23C)	1.1010 (8)
N(21)—C(23)	1.4589 (9)	C(31)—H(31)	1.0840 (9)
N(31)—C(31)	1.3360 (10)	C(32)—H(32A)	1.1010 (11)
N(31)—C(32)	1.4599 (11)	C(32)—H(32B)	1.1010 (8)
N(31)—C(33)	1.4575 (14)	C(32)—H(32C)	1.1010 (9)
C(1)—C(2)	1.5050 (11)	C(33)—H(33A)	1.1010 (9)
C(2)—C(3)	1.4017 (9)	C(33)—H(33B)	1.1010 (11)
C(2)—C(7)	1.4006 (10)	C(33)—H(33C)	1.1010 (10)

O(1)—MN(1)—O(8)	84.24 (4)	C(5)—C(4)—H(4)	120.03 (8)
O(1)—MN(1)—O(8)ⁱ	86.15 (3)	C(4)—C(5)—C(6)	120.42 (8)
O(1)—MN(1)—O(9)	100.86 (3)	C(4)—C(5)—C(8)	119.33 (6)
O(1)—MN(1)—O(11)	87.52 (4)	C(6)—C(5)—C(8)	120.24 (6)
O(1)—MN(1)—O(21)	172.22 (3)	C(5)—C(6)—C(7)^iv	119.28 (7)
O(1)—MN(1)—C(8)	96.45 (3)	C(5)—C(6)—H(6)	120.34 (8)
O(8)—MN(1)—O(8)ⁱ	77.72 (3)	C(7)^iv—C(6)—H(6)	120.38 (6)
O(8)—MN(1)—O(9)	55.81 (2)	C(2)—C(7)—C(6)ⁱⁱⁱ	120.26 (6)
O(8)—MN(1)—O(11)	170.08 (3)	C(2)—C(7)—H(7)	119.84 (8)
O(8)—MN(1)—O(21)	97.97 (4)	C(6)ⁱⁱⁱ—C(7)—H(7)	119.90 (7)
O(8)—MN(1)—C(8)	28.08 (2)	O(8)—C(8)—O(9)	120.49 (9)
O(8)ⁱ—MN(1)—O(9)	131.50 (4)	O(8)—C(8)—C(5)	119.45 (7)
O(8)ⁱ—MN(1)—O(11)	107.27 (3)	O(9)—C(8)—C(5)	120.04 (7)
O(8)ⁱ—MN(1)—O(21)	87.03 (3)	O(11)—C(11)—O(12)	123.74 (9)
O(8)ⁱ—MN(1)—C(8)	103.69 (3)	O(11)—C(11)—C(12)	117.07 (7)
O(9)—MN(1)—O(11)	120.84 (3)	O(12)—C(11)—C(12)	119.18 (7)
O(9)—MN(1)—O(21)	86.48 (3)	C(11)—C(12)—C(13)	120.68 (7)
O(9)—MN(1)—C(8)	28.20 (2)	C(11)—C(12)—C(17)	119.52 (6)
O(11)—MN(1)—O(21)	90.93 (4)	C(13)—C(12)—C(17)	119.80 (7)
O(11)—MN(1)—C(8)	148.98 (3)	C(12)—C(13)—C(14)^v	119.40 (7)
O(21)—MN(1)—C(8)	88.80 (3)	C(12)—C(13)—H(13)	120.44 (8)
O(2)—MN(2)—O(9)	82.77 (3)	C(14)^v—C(13)—H(13)	120.16 (6)
O(2)—MN(2)—O(12)	90.30 (3)	C(13)^vi—C(14)—C(15)	120.89 (6)
O(2)—MN(2)—O(18)	83.83 (3)	C(13)^vi—C(14)—H(14)	119.43 (7)
O(2)—MN(2)—O(19)	163.06 (4)	C(15)—C(14)—H(14)	119.68 (8)
O(2)—MN(2)—O(31)	84.24 (3)	C(14)—C(15)—C(16)	119.42 (7)
O(9)—MN(2)—O(12)	86.43 (3)	C(14)—C(15)—C(18)	120.66 (6)
O(9)—MN(2)—O(18)	166.60 (3)	C(16)—C(15)—C(18)	119.91 (7)
O(9)—MN(2)—O(19)	82.32 (3)	C(15)—C(16)—C(17)^vi	119.88 (7)
O(9)—MN(2)—O(31)	90.74 (3)	C(15)—C(16)—H(16)	120.01 (8)
O(12)—MN(2)—O(18)	93.99 (4)	C(17)^vi—C(16)—H(16)	120.12 (6)
O(12)—MN(2)—O(19)	96.76 (4)	C(12)—C(17)—C(16)^v	120.59 (6)
O(12)—MN(2)—O(31)	174.13 (3)	C(12)—C(17)—H(17)	119.85 (8)
O(18)—MN(2)—O(19)	110.88 (3)	C(16)^v—C(17)—H(17)	119.56 (7)
O(18)—MN(2)—O(31)	87.58 (4)	O(18)ⁱⁱ—C(18)—O(19)	125.80 (9)
O(19)—MN(2)—O(31)	87.95 (4)	O(18)ⁱⁱ—C(18)—C(15)	116.80 (7)
MN(1)—O(1)—C(1)	126.80 (7)	O(19)—C(18)—C(15)	117.40 (7)
MN(2)—O(2)—C(1)	134.40 (6)	O(21)—C(21)—N(21)	124.19 (8)
MN(1)—O(8)—MN(1)ⁱ	102.28 (3)	O(21)—C(21)—H(21)	117.75 (8)
MN(1)—O(8)—C(8)	85.26 (5)	N(21)—C(21)—H(21)	118.07 (6)
MN(1)ⁱ—O(8)—C(8)	156.33 (8)	N(21)—C(22)—H(22A)	109.54 (7)
MN(1)—O(9)—MN(2)	101.40 (4)	N(21)—C(22)—H(22B)	109.51 (8)
MN(1)—O(9)—C(8)	96.40 (5)	N(21)—C(22)—H(22C)	109.21 (8)
MN(2)—O(9)—C(8)	134.73 (6)	H(22A)—C(22)—H(22B)	109.65 (8)
MN(1)—O(11)—C(11)	110.28 (6)	H(22A)—C(22)—H(22C)	109.47 (9)
MN(2)—O(12)—C(12)	153.73 (5)	H(22B)—C(22)—H(22C)	109.44 (8)
MN(2)—O(18)—C(18)ⁱⁱ	129.42 (6)	N(21)—C(23)—H(23A)	109.59 (7)
MN(2)—O(19)—C(18)	155.44 (8)	N(21)—C(23)—H(23B)	109.54 (8)
MN(1)—O(21)—C(21)	126.82 (7)	N(21)—C(23)—H(23C)	109.67 (7)
MN(2)—O(31)—C(31)	121.71 (8)	H(23A)—C(23)—H(23B)	109.29 (7)
C(21)—N(21)—C(22)	120.97 (7)	H(23A)—C(23)—H(23C)	109.27 (8)
C(21)—N(21)—C(23)	121.23 (7)	H(23B)—C(23)—H(23C)	109.48 (8)
C(22)—N(21)—C(23)	117.69 (7)	O(31)—C(31)—N(31)	124.31 (10)
C(31)—N(31)—C(32)	121.52 (9)	O(31)—C(31)—H(31)	117.81 (8)
C(31)—N(31)—C(33)	120.99 (8)	N(31)—C(31)—H(31)	117.89 (7)
C(32)—N(31)—C(33)	117.49 (7)	N(31)—C(32)—H(32A)	109.51 (7)
O(1)—C(1)—O(2)	126.26 (9)	N(31)—C(32)—H(32B)	109.59 (7)
O(1)—C(1)—C(2)	115.52 (7)	N(31)—C(32)—H(32C)	109.55 (9)
O(2)—C(1)—C(2)	118.22 (7)	H(32A)—C(32)—H(32B)	109.40 (9)
C(1)—C(2)—C(3)	120.09 (6)	H(32A)—C(32)—H(32C)	109.31 (7)
C(1)—C(2)—C(7)	119.57 (6)	H(32B)—C(32)—H(32C)	109.47 (7)
C(3)—C(2)—C(7)	120.28 (7)	N(31)—C(33)—H(33A)	109.73 (7)
C(2)—C(3)—C(4)ⁱⁱⁱ	119.74 (6)	N(31)—C(33)—H(33B)	109.69 (7)
C(2)—C(3)—H(3)	120.09 (8)	N(31)—C(33)—H(33C)	109.59 (10)
C(4)ⁱⁱⁱ—C(3)—H(3)	120.17 (6)	H(33A)—C(33)—H(33B)	109.32 (11)
C(3)^iv—C(4)—C(5)	119.86 (6)	H(33A)—C(33)—H(33C)	109.20 (8)
C(3)^iv—C(4)—H(4)	120.11 (7)	H(33B)—C(33)—H(33C)	109.29 (8)

C(22)—N(21)—C(21)—O(21)	1.9 (1)	C(6)ⁱⁱⁱ—C(7)—C(2)—C(1)	174.1 (2)
C(23)—N(21)—C(21)—O(21)	177.9 (2)	C(6)ⁱⁱⁱ—C(7)—C(2)—C(3)	−3.2 (1)
C(32)—N(31)—C(31)—O(31)	−178.7 (2)	O(11)—C(11)—C(12)—C(13)	−165.1 (2)
C(33)—N(31)—C(31)—O(31)	0.9 (1)	O(11)—C(11)—C(12)—C(17)	15.0 (1)
O(1)—C(1)—C(2)—C(3)	25.7 (1)	O(12)—C(11)—C(12)—C(13)	14.1 (1)
O(1)—C(1)—C(2)—C(7)	−151.7 (2)	O(12)—C(11)—C(12)—C(17)	−165.8 (2)
O(2)—C(1)—C(2)—C(3)	−154.4 (2)	C(14)^v—C(13)—C(12)—C(11)	179.2 (2)
O(2)—C(1)—C(2)—C(7)	28.2 (1)	C(14)^v—C(13)—C(12)—C(17)	−1.0 (1)
C(4)ⁱⁱⁱ—C(3)—C(2)—C(1)	−177.3 (2)	C(13)^vi—C(14)—C(15)—C(16)	−0.6 (1)
C(4)ⁱⁱⁱ—C(3)—C(2)—C(7)	0.0 (1)	C(13)^vi—C(14)—C(15)—C(18)	179.8 (2)
C(3)^iv—C(4)—C(5)—C(6)	3.5 (1)	C(14)—C(15)—C(18)—O(19)	−154.8 (2)
C(3)^iv—C(4)—C(5)—C(8)	−177.2 (2)	C(16)—C(15)—C(18)—O(19)	25.6 (1)
C(4)—C(5)—C(8)—O(8)	9.0 (1)	C(17)^vi—C(16)—C(15)—C(14)	1.2 (1)
C(4)—C(5)—C(8)—O(9)	−169.3 (2)	C(17)^vi—C(16)—C(15)—C(18)	−179.2 (2)
C(6)—C(5)—C(8)—O(8)	−171.7 (2)	C(16)^v—C(17)—C(12)—C(11)	−179.8 (2)
C(6)—C(5)—C(8)—O(9)	10.0 (1)	C(16)^v—C(17)—C(12)—C(13)	0.3 (1)
C(7)^iv—C(6)—C(5)—C(4)	−0.3 (1)	O(18)ⁱⁱ—C(18)—C(15)—C(14)	24.5 (1)
C(7)^iv—C(6)—C(5)—C(8)	−179.6 (2)	O(18)ⁱⁱ—C(18)—C(15)—C(16)	−155.1 (2)

Symmetry codes: (i) −x, −y+1, −z+1; (ii) −x+1, −y+1, −z+1; (iii) x, −y+1/2, z+1/2; (iv) x, −y+1/2, z−1/2; (v) x, −y+3/2, z+1/2; (vi) x, −y+3/2, z−1/2.

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