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The title compound, [Mn(CF3COO)2(H2O)4], crystallizes in the monoclinic space group C2/c. At about 215 K, it undergoes a reversible phase transition, which leads to crystal twinning. The crystal structure of the high-temperature phase was determined at 220 K. The Mn2+ ion lies on a twofold axis and is octahedrally coordinated by two monodentate trifluoroacetate ligands in apical positions and by four equatorial aqua ligands, two of which lie on the twofold axis. Hydrogen-bonding interactions connect the complex molecules, generating a three-dimensional network.
Supporting information
CCDC reference: 153873
Data collection: KM4CCD Software (Kuma Diffraction, 1995–1999); cell refinement: KM4CCD Software (Kuma Diffraction, 1995–1999); data reduction: KM4CCD Software (Kuma Diffraction, 1995–1999); program(s) used to solve structure: SHELXS97 (Sheldrick, 1990); program(s) used to refine structure: SHELXL97 (Sheldrick, 1997); molecular graphics: ORTEPII (Johnson, 1976); software used to prepare material for publication: SHELXL97 (Sheldrick, 1990).
trans-tetraaquabis(trifluoroacetato)manganese(II)
top
Crystal data top
| [Mn(C2F3O2)2(H2O)4] | F(000) = 700 |
| Mr = 353.04 | Dx = 1.888 Mg m−3
Dm = 1.875 Mg m−3
Dm measured by flotation in dibromoethane/cyclohexane |
| Monoclinic, C2/c | Mo Kα radiation, λ = 0.71073 Å |
| a = 13.383 (5) Å | Cell parameters from 1518 reflections |
| b = 13.038 (4) Å | θ = 4–27° |
| c = 8.372 (3) Å | µ = 1.17 mm−1 |
| β = 121.76 (4)° | T = 220 K |
| V = 1242.1 (7) Å3 | Sphere, pale-pink |
| Z = 4 | 0.1 mm (radius) |
Data collection top
Kuma KM4CCD κ-geometry
diffractometer | 1331 independent reflections |
| Radiation source: fine-focus sealed tube | 1144 reflections with I > 2σ(I) |
| Graphite monochromator | Rint = 0.028 |
| ω scans | θmax = 27°, θmin = 4° |
Absorption correction: for a sphere
International Tables for Crystallography, 1992, Vol. C | h = −16→16 |
| Tmin = 0.840, Tmax = 0.841 | k = −16→16 |
| 3808 measured reflections | l = −10→8 |
Refinement top
| 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)] = 0.042 | Hydrogen site location: difference Fourier map |
| wR(F2) = 0.109 | All H-atom parameters refined |
| S = 1.11 | Calculated w = 1/[σ2(Fo2) + (0.0497P)2 + 1.7678P]
where P = (Fo2 + 2Fc2)/3 |
| 1331 reflections | (Δ/σ)max = 0.001 |
| 117 parameters | Δρmax = 0.38 e Å−3 |
| 0 restraints | Δρmin = −0.40 e Å−3 |
Special details top
Experimental. The data collection strategy nominally covered a full Ewald sphere by a
combination of four set of exposures. Each set had a different φ angle for
the crystal and each exposure of 40 s covered 0.75 ° in ω. The
crystal–to–detector distance was 65 mm and the detector swing angle was 30
°. There were 612 frames. Crystal decay was monitored by repeating the
initial frames at the end of data collection and analyzing the duplicate
reflections. |
Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes)
are estimated using the full covariance matrix. The cell e.s.d.'s are taken
into account individually in the estimation of e.s.d.'s in distances, angles
and torsion angles; correlations between e.s.d.'s in cell parameters are only
used when they are defined by crystal symmetry. An approximate (isotropic)
treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s.
planes. |
Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top| | x | y | z | Uiso*/Ueq | Occ. (<1) |
| Mn | 0.5000 | 0.39739 (4) | 0.2500 | 0.0374 (2) | |
| O1 | 0.35033 (16) | 0.40385 (14) | 0.2888 (3) | 0.0424 (5) | |
| O2 | 0.28522 (19) | 0.24231 (16) | 0.2210 (3) | 0.0553 (6) | |
| O3 | 0.61625 (17) | 0.40168 (16) | 0.5573 (3) | 0.0406 (5) | |
| O4 | 0.5000 | 0.5628 (2) | 0.2500 | 0.0452 (7) | |
| O5 | 0.5000 | 0.2336 (3) | 0.2500 | 0.0741 (13) | |
| C1 | 0.2799 (2) | 0.3321 (2) | 0.2585 (4) | 0.0414 (6) | |
| C2 | 0.1738 (3) | 0.3653 (3) | 0.2714 (6) | 0.0605 (9) | |
| F1 | 0.1033 (4) | 0.4225 (5) | 0.1326 (8) | 0.150 (2) | 0.876 (6) |
| F2 | 0.2068 (3) | 0.4170 (4) | 0.4259 (6) | 0.1206 (19) | 0.876 (6) |
| F3 | 0.1138 (3) | 0.2873 (3) | 0.2753 (7) | 0.1189 (19) | 0.876 (6) |
| F4 | 0.1614 (16) | 0.4643 (13) | 0.277 (3) | 0.058 (5)* | 0.124 (6) |
| F5 | 0.176 (2) | 0.339 (2) | 0.411 (4) | 0.096 (8)* | 0.124 (6) |
| F6 | 0.0758 (16) | 0.3412 (17) | 0.130 (3) | 0.062 (6)* | 0.124 (6) |
| H3 | 0.647 (3) | 0.460 (3) | 0.608 (5) | 0.054 (10)* | |
| H31 | 0.667 (4) | 0.357 (3) | 0.618 (6) | 0.077 (13)* | |
| H4 | 0.468 (3) | 0.595 (2) | 0.295 (5) | 0.055 (10)* | |
| H5 | 0.445 (4) | 0.212 (4) | 0.236 (7) | 0.103 (18)* | |
Atomic displacement parameters (Å2) top| | U11 | U22 | U33 | U12 | U13 | U23 |
| Mn | 0.0349 (3) | 0.0312 (3) | 0.0554 (4) | 0.000 | 0.0301 (3) | 0.000 |
| O1 | 0.0365 (10) | 0.0403 (10) | 0.0609 (12) | −0.0058 (7) | 0.0329 (9) | −0.0050 (8) |
| O2 | 0.0459 (12) | 0.0477 (13) | 0.0830 (15) | −0.0131 (9) | 0.0413 (12) | −0.0144 (11) |
| O3 | 0.0364 (10) | 0.0356 (11) | 0.0522 (11) | 0.0060 (8) | 0.0250 (9) | 0.0027 (9) |
| O4 | 0.0568 (18) | 0.0308 (14) | 0.0683 (19) | 0.000 | 0.0468 (16) | 0.000 |
| O5 | 0.070 (3) | 0.0344 (17) | 0.152 (4) | 0.000 | 0.082 (3) | 0.000 |
| C1 | 0.0344 (13) | 0.0479 (16) | 0.0459 (15) | −0.0051 (11) | 0.0238 (12) | −0.0035 (12) |
| C2 | 0.0439 (17) | 0.068 (2) | 0.081 (2) | −0.0141 (16) | 0.0410 (17) | −0.0196 (19) |
| F1 | 0.092 (3) | 0.197 (5) | 0.182 (5) | 0.089 (3) | 0.087 (3) | 0.085 (4) |
| F2 | 0.093 (2) | 0.161 (4) | 0.160 (4) | −0.051 (2) | 0.102 (3) | −0.097 (3) |
| F3 | 0.103 (2) | 0.088 (2) | 0.241 (5) | −0.047 (2) | 0.142 (3) | −0.057 (3) |
Geometric parameters (Å, º) top
| Mn—O5 | 2.136 (4) | O4—H4 | 0.82 (3) |
| Mn—O4 | 2.157 (3) | O5—H5 | 0.74 (5) |
| Mn—O1i | 2.193 (2) | C1—C2 | 1.541 (4) |
| Mn—O1 | 2.193 (2) | C2—F5 | 1.21 (2) |
| Mn—O3 | 2.198 (2) | C2—F6 | 1.261 (18) |
| Mn—O3i | 2.198 (2) | C2—F1 | 1.281 (6) |
| O1—C1 | 1.255 (3) | C2—F4 | 1.306 (18) |
| O2—C1 | 1.224 (3) | C2—F3 | 1.308 (4) |
| O3—H3 | 0.86 (4) | C2—F2 | 1.312 (5) |
| O3—H31 | 0.83 (4) | | |
| | | |
| O5—Mn—O4 | 180.0 | F1—C2—F3 | 107.8 (4) |
| O5—Mn—O1i | 92.20 (5) | F4—C2—F3 | 132.5 (8) |
| O4—Mn—O1i | 87.80 (5) | F5—C2—F2 | 50.6 (14) |
| O5—Mn—O1 | 92.20 (5) | F6—C2—F2 | 134.4 (9) |
| O4—Mn—O1 | 87.80 (5) | F1—C2—F2 | 107.5 (5) |
| O1i—Mn—O1 | 175.60 (10) | F4—C2—F2 | 55.9 (8) |
| O5—Mn—O3 | 91.46 (6) | F3—C2—F2 | 105.4 (4) |
| O4—Mn—O3 | 88.54 (6) | F5—C2—C1 | 115.8 (12) |
| O1i—Mn—O3 | 91.92 (9) | F6—C2—C1 | 113.9 (9) |
| O1—Mn—O3 | 87.97 (9) | F1—C2—C1 | 111.5 (3) |
| O5—Mn—O3i | 91.46 (6) | F4—C2—C1 | 114.9 (8) |
| O4—Mn—O3i | 88.54 (6) | F3—C2—C1 | 112.6 (3) |
| O1i—Mn—O3i | 87.97 (9) | F2—C2—C1 | 111.7 (3) |
| O1—Mn—O3i | 91.92 (9) | F6—F1—F4 | 119.8 (14) |
| O3—Mn—O3i | 177.08 (12) | F6—F1—C2 | 63.0 (10) |
| C1—O1—Mn | 126.04 (18) | F4—F1—C2 | 64.1 (9) |
| Mn—O3—H3 | 118 (2) | F5—F2—F4 | 113.8 (16) |
| Mn—O3—H31 | 123 (3) | F5—F2—C2 | 59.7 (13) |
| H3—O3—H31 | 107 (4) | F4—F2—C2 | 61.8 (9) |
| Mn—O4—H4 | 121 (2) | F5—F3—F6 | 109.3 (16) |
| Mn—O5—H5 | 112 (4) | F5—F3—C2 | 57.3 (13) |
| O2—C1—O1 | 128.8 (3) | F6—F3—C2 | 58.8 (9) |
| O2—C1—C2 | 117.8 (3) | F1—F4—F2 | 121.2 (15) |
| O1—C1—C2 | 113.4 (3) | F1—F4—C2 | 62.0 (9) |
| F5—C2—F6 | 108.9 (17) | F2—F4—C2 | 62.3 (9) |
| F5—C2—F1 | 132.5 (12) | F2—F5—F3 | 132 (2) |
| F6—C2—F1 | 52.1 (10) | F2—F5—C2 | 69.7 (16) |
| F5—C2—F4 | 100.7 (15) | F3—F5—C2 | 65.8 (14) |
| F6—C2—F4 | 101.0 (12) | F1—F6—F3 | 123.1 (15) |
| F1—C2—F4 | 53.9 (8) | F1—F6—C2 | 64.9 (10) |
| F5—C2—F3 | 56.9 (14) | F3—F6—C2 | 62.5 (9) |
| F6—C2—F3 | 58.7 (10) | | |
| Symmetry code: (i) −x+1, y, −z+1/2. |
Hydrogen-bond geometry (Å, º) top
| D—H···A | D—H | H···A | D···A | D—H···A |
| O3—H3···O1ii | 0.86 (4) | 1.97 (4) | 2.772 (3) | 155 (3) |
| O3—H31···O2iii | 0.83 (4) | 1.87 (4) | 2.693 (3) | 170 (4) |
| O4—H4···O3ii | 0.82 (3) | 2.07 (3) | 2.807 (2) | 150 (3) |
| O5—H5···O2 | 0.74 (5) | 2.11 (5) | 2.757 (2) | 146 (5) |
| Symmetry codes: (ii) −x+1, −y+1, −z+1; (iii) x+1/2, −y+1/2, z+1/2. |
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