metal-organic compounds
Carbonyl[4-(2,6-dimethylphenylamino)pent-3-en-2-onato-κ2N,O](triphenylphosphine-κP)rhodium(I) acetone hemisolvate
aDepartment of Chemistry, University of the Free State, P.O. Box 339, Bloemfontein, 9300, South Africa
*Correspondence e-mail: truidie@hotmail.com
In the title compound, [Rh(C13H16NO)(C18H15P)(CO)]·0.5C3H6O, the Rh atom exhibits a square-planar coordination geometry, being coordinated by the N and O atoms of the bidentate β-diketonato ligand, a P atom from the triphenylphosphine unit and a C atom from the carbonyl group. The also contains a disordered half-molecule, lying about an inversion center, of the acetone solvate. Intermolecular C—H⋯O hydrogen bonds are observed between a C—H group of the triphenylphosphine unit and a carbonyl O atom and between the methyl group of the enaminoketonato backbone and the solvent O atom. In addition, an intramolecular interaction is observed between a C—H group of the triphenylphosphine unit and the O atom of the enaminoketonato ligand.
Related literature
For synthetic background, see: Shaheen et al. (2006); Cornils & Hermann (1996); Bonati & Wilkinson (1964). For appplications of rhodium(I) dicarbonyl complexes, see: Cornils & Herrmann (1996); Trzeciak & Ziolkowski (1994); Van Rooy et al. (1995). For related structures, see: Damoense et al. (1994); Varshavsky et al. (2001); Venter et al. (2009).
Experimental
Crystal data
|
Refinement
|
|
Data collection: APEX2 (Bruker, 2005); cell SAINT-Plus (Bruker, 2004); data reduction: SAINT-Plus; program(s) used to solve structure: SIR97 (Altomare et al., 1999); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008); molecular graphics: DIAMOND (Brandenburg & Putz, 2005); software used to prepare material for publication: WinGX (Farrugia, 1999).
Supporting information
10.1107/S160053680904817X/pv2227sup1.cif
contains datablocks global, I. DOI:Structure factors: contains datablock I. DOI: 10.1107/S160053680904817X/pv2227Isup2.hkl
To a 5 ml acetone solution of [Rh(2,6-diMe-Phony)(CO)2] (0.0302 g, 83.61 µmol) was added PPh3 (0.0219 g, 83.50 µmol) resulting in an immediate evolution of gas with the formation of the title compound. Crystallization from acetone produced yellow crystals of (I) in quantitative (0.0516 g, 100%) yield. IR (KBr): νCO 1971.1 s cm-1.
The methyl and aromatic H atoms were placed in geometrically idealized positions and constrained to ride on their parent atoms, with C—H = 0.95 and 0.98 Å and Uiso(H) = 1.5Ueq(C) and 1.2Ueq(C), respectively. The methyl groups were generated to fit the difference electron density and the groups were then refined as rigid rotors. The acetone solvate was disordered about inversion center. The highest residual electron- density peak in the final difference map was located 0.65Å from H316 and was essentially meaningless.
Data collection: APEX2 (Bruker, 2005); cell
SAINT-Plus (Bruker, 2004); data reduction: SAINT-Plus (Bruker, 2004); program(s) used to solve structure: SIR97 (Altomare et al., 1999); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008); molecular graphics: DIAMOND (Brandenburg & Putz, 2005); software used to prepare material for publication: WinGX (Farrugia, 1999).Fig. 1. Molecular structure of the title compound. Displacement ellipsoids are drawn at the 50% probability displacement level. H atoms and disordered solvate molecule have been omitted for clarity. | |
Fig. 2. A view of the unit cell of (I) illustrating the C—H···O interactions; hydrogen atoms have been omitted for clarity. |
[Rh(C13H16NO)(C18H15P)(CO)]·0.5C3H6O | F(000) = 1288 |
Mr = 624.5 | Dx = 1.389 Mg m−3 |
Monoclinic, P21/c | Mo Kα radiation, λ = 0.71073 Å |
Hall symbol: -P 2ybc | Cell parameters from 6670 reflections |
a = 16.8558 (8) Å | θ = 2.5–28.2° |
b = 11.4028 (5) Å | µ = 0.66 mm−1 |
c = 16.4059 (8) Å | T = 100 K |
β = 108.733 (1)° | Cuboid, yellow |
V = 2986.2 (2) Å3 | 0.31 × 0.15 × 0.11 mm |
Z = 4 |
Bruker X8 APEXII 4K Kappa CCD diffractometer | 7425 independent reflections |
Radiation source: fine-focus sealed tube | 6081 reflections with > 2σI) |
Graphite monochromator | Rint = 0.042 |
ω and ϕ scans | θmax = 28.3°, θmin = 1.3° |
Absorption correction: multi-scan (SADABS; Bruker, 2004) | h = −21→22 |
Tmin = 0.822, Tmax = 0.931 | k = −15→11 |
23158 measured reflections | l = −21→21 |
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) = 0.112 | H-atom parameters constrained |
S = 1.09 | w = 1/[σ2(Fo2) + (0.0577P)2 + 1.4787P] where P = (Fo2 + 2Fc2)/3 |
7425 reflections | (Δ/σ)max = 0.002 |
354 parameters | Δρmax = 1.54 e Å−3 |
1 restraint | Δρmin = −1.32 e Å−3 |
[Rh(C13H16NO)(C18H15P)(CO)]·0.5C3H6O | V = 2986.2 (2) Å3 |
Mr = 624.5 | Z = 4 |
Monoclinic, P21/c | Mo Kα radiation |
a = 16.8558 (8) Å | µ = 0.66 mm−1 |
b = 11.4028 (5) Å | T = 100 K |
c = 16.4059 (8) Å | 0.31 × 0.15 × 0.11 mm |
β = 108.733 (1)° |
Bruker X8 APEXII 4K Kappa CCD diffractometer | 7425 independent reflections |
Absorption correction: multi-scan (SADABS; Bruker, 2004) | 6081 reflections with > 2σI) |
Tmin = 0.822, Tmax = 0.931 | Rint = 0.042 |
23158 measured reflections |
R[F2 > 2σ(F2)] = 0.038 | 1 restraint |
wR(F2) = 0.112 | H-atom parameters constrained |
S = 1.09 | Δρmax = 1.54 e Å−3 |
7425 reflections | Δρmin = −1.32 e Å−3 |
354 parameters |
Experimental. The intensity data was collected on a Bruker X8 ApexII 4 K Kappa CCD diffractometer using an exposure time of 60 s/frame. A total of 688 frames were collected with a frame width of 0.5° covering up to θ = 28.24° with 99.8% completeness accomplished. |
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. |
x | y | z | Uiso*/Ueq | Occ. (<1) | |
C1 | 0.7144 (2) | 0.7625 (3) | 0.4744 (2) | 0.0257 (7) | |
H1A | 0.7697 | 0.7807 | 0.5152 | 0.039* | |
H1B | 0.6712 | 0.7804 | 0.5007 | 0.039* | |
H1C | 0.7048 | 0.8097 | 0.4222 | 0.039* | |
C2 | 0.71032 (17) | 0.6337 (2) | 0.45128 (18) | 0.0168 (5) | |
C3 | 0.65757 (17) | 0.5637 (2) | 0.48382 (18) | 0.0183 (6) | |
H3 | 0.6324 | 0.6017 | 0.5209 | 0.022* | |
C4 | 0.63880 (17) | 0.4461 (2) | 0.46740 (19) | 0.0180 (6) | |
C5 | 0.57863 (19) | 0.3856 (3) | 0.5045 (2) | 0.0265 (7) | |
H5A | 0.5288 | 0.3609 | 0.4577 | 0.04* | |
H5B | 0.5621 | 0.4399 | 0.5425 | 0.04* | |
H5C | 0.6058 | 0.3167 | 0.5375 | 0.04* | |
C14 | 0.84522 (17) | 0.4446 (2) | 0.32802 (17) | 0.0166 (5) | |
C111 | 0.80357 (17) | 0.6734 (2) | 0.37352 (18) | 0.0164 (5) | |
C112 | 0.76869 (19) | 0.7250 (2) | 0.2919 (2) | 0.0223 (6) | |
C113 | 0.8183 (2) | 0.8000 (3) | 0.2624 (2) | 0.0271 (7) | |
H113 | 0.7952 | 0.8365 | 0.2078 | 0.033* | |
C114 | 0.9008 (2) | 0.8226 (2) | 0.3109 (2) | 0.0292 (7) | |
H114 | 0.9338 | 0.8746 | 0.2897 | 0.035* | |
C115 | 0.93503 (19) | 0.7690 (2) | 0.3902 (2) | 0.0242 (6) | |
H115 | 0.9919 | 0.7836 | 0.4228 | 0.029* | |
C116 | 0.88743 (18) | 0.6938 (2) | 0.42310 (19) | 0.0194 (6) | |
C117 | 0.6798 (2) | 0.6980 (3) | 0.2380 (2) | 0.0318 (7) | |
H11A | 0.6667 | 0.7385 | 0.1826 | 0.048* | |
H11B | 0.6414 | 0.7247 | 0.2682 | 0.048* | |
H11C | 0.6734 | 0.6132 | 0.2283 | 0.048* | |
C118 | 0.92484 (19) | 0.6332 (3) | 0.5082 (2) | 0.0257 (7) | |
H11D | 0.9859 | 0.6413 | 0.5269 | 0.039* | |
H11E | 0.9099 | 0.5499 | 0.5021 | 0.039* | |
H11F | 0.9031 | 0.6689 | 0.551 | 0.039* | |
C311 | 0.82259 (17) | 0.1691 (2) | 0.27715 (17) | 0.0149 (5) | |
C312 | 0.90839 (17) | 0.1910 (2) | 0.30147 (18) | 0.0168 (5) | |
H312 | 0.9352 | 0.2308 | 0.354 | 0.02* | |
C313 | 0.95533 (17) | 0.1553 (2) | 0.24967 (19) | 0.0193 (6) | |
H313 | 1.0138 | 0.1707 | 0.267 | 0.023* | |
C314 | 0.91660 (18) | 0.0976 (2) | 0.17315 (19) | 0.0212 (6) | |
H314 | 0.9483 | 0.0736 | 0.1375 | 0.025* | |
C315 | 0.83113 (18) | 0.0749 (2) | 0.14845 (19) | 0.0190 (6) | |
H315 | 0.8045 | 0.035 | 0.0959 | 0.023* | |
C316 | 0.78449 (17) | 0.1103 (2) | 0.20019 (18) | 0.0168 (5) | |
H316 | 0.7261 | 0.0943 | 0.1829 | 0.02* | |
C321 | 0.66208 (17) | 0.1553 (2) | 0.30122 (17) | 0.0153 (5) | |
C322 | 0.59944 (17) | 0.2176 (2) | 0.24164 (19) | 0.0202 (6) | |
H322 | 0.6093 | 0.296 | 0.2279 | 0.024* | |
C323 | 0.52197 (18) | 0.1657 (3) | 0.2017 (2) | 0.0243 (6) | |
H323 | 0.4799 | 0.208 | 0.1594 | 0.029* | |
C324 | 0.50573 (19) | 0.0534 (3) | 0.2231 (2) | 0.0260 (7) | |
H324 | 0.4523 | 0.019 | 0.1966 | 0.031* | |
C325 | 0.5676 (2) | −0.0085 (3) | 0.2829 (2) | 0.0386 (9) | |
H325 | 0.557 | −0.086 | 0.2979 | 0.046* | |
C326 | 0.6459 (2) | 0.0424 (3) | 0.3217 (2) | 0.0335 (8) | |
H326 | 0.6884 | −0.001 | 0.3627 | 0.04* | |
C331 | 0.81170 (17) | 0.1399 (2) | 0.44688 (17) | 0.0156 (5) | |
C332 | 0.7927 (2) | 0.1752 (3) | 0.51929 (19) | 0.0266 (7) | |
H332 | 0.7579 | 0.2416 | 0.5163 | 0.032* | |
C333 | 0.8240 (2) | 0.1144 (3) | 0.5959 (2) | 0.0334 (8) | |
H333 | 0.8091 | 0.1378 | 0.6447 | 0.04* | |
C334 | 0.8770 (2) | 0.0196 (3) | 0.60188 (19) | 0.0263 (7) | |
H334 | 0.8999 | −0.0205 | 0.655 | 0.032* | |
C335 | 0.89635 (18) | −0.0163 (2) | 0.53013 (19) | 0.0222 (6) | |
H335 | 0.932 | −0.082 | 0.5339 | 0.027* | |
C336 | 0.86407 (18) | 0.0429 (2) | 0.45242 (19) | 0.0196 (6) | |
H336 | 0.8775 | 0.0176 | 0.4032 | 0.024* | |
N11 | 0.75420 (14) | 0.59212 (18) | 0.40401 (15) | 0.0148 (5) | |
O12 | 0.66821 (11) | 0.37910 (16) | 0.42069 (13) | 0.0174 (4) | |
O14 | 0.90058 (13) | 0.46375 (18) | 0.30306 (13) | 0.0225 (4) | |
P13 | 0.76530 (4) | 0.22182 (6) | 0.34722 (4) | 0.01315 (15) | |
Rh1 | 0.761010 (12) | 0.417429 (17) | 0.371227 (13) | 0.01263 (8) | |
O01 | 0.4759 (6) | 0.3631 (7) | 0.0331 (6) | 0.0963 (16) | 0.5 |
C01 | 0.4182 (4) | 0.5252 (5) | −0.0389 (4) | 0.0963 (16) | |
H01A | 0.366 | 0.4813 | −0.0482 | 0.144* | |
H01B | 0.4236 | 0.5472 | −0.0946 | 0.144* | |
H01C | 0.4173 | 0.5961 | −0.0055 | 0.144* | |
C02 | 0.4899 (9) | 0.4513 (10) | 0.0086 (9) | 0.0963 (16) | 0.5 |
U11 | U22 | U33 | U12 | U13 | U23 | |
C1 | 0.0290 (16) | 0.0158 (14) | 0.0378 (18) | 0.0010 (12) | 0.0183 (14) | −0.0024 (13) |
C2 | 0.0145 (13) | 0.0149 (13) | 0.0204 (14) | 0.0019 (10) | 0.0049 (11) | 0.0014 (10) |
C3 | 0.0165 (13) | 0.0185 (13) | 0.0215 (14) | 0.0041 (11) | 0.0082 (11) | 0.0009 (11) |
C4 | 0.0127 (13) | 0.0192 (13) | 0.0220 (14) | 0.0039 (10) | 0.0056 (11) | 0.0037 (11) |
C5 | 0.0233 (15) | 0.0239 (15) | 0.0378 (18) | −0.0002 (12) | 0.0176 (14) | 0.0045 (13) |
C14 | 0.0190 (14) | 0.0134 (12) | 0.0157 (13) | −0.0017 (10) | 0.0032 (11) | −0.0036 (10) |
C111 | 0.0206 (14) | 0.0097 (12) | 0.0224 (14) | −0.0009 (10) | 0.0118 (12) | −0.0016 (10) |
C112 | 0.0273 (15) | 0.0152 (13) | 0.0279 (16) | 0.0027 (11) | 0.0137 (13) | 0.0022 (11) |
C113 | 0.0408 (19) | 0.0149 (13) | 0.0312 (17) | 0.0020 (13) | 0.0193 (15) | 0.0041 (12) |
C114 | 0.0410 (19) | 0.0138 (14) | 0.043 (2) | −0.0063 (13) | 0.0286 (16) | −0.0043 (13) |
C115 | 0.0243 (15) | 0.0173 (14) | 0.0375 (18) | −0.0055 (11) | 0.0189 (14) | −0.0117 (12) |
C116 | 0.0220 (14) | 0.0136 (12) | 0.0242 (15) | −0.0014 (11) | 0.0099 (12) | −0.0038 (11) |
C117 | 0.0293 (17) | 0.0335 (17) | 0.0289 (17) | 0.0046 (14) | 0.0043 (14) | 0.0104 (14) |
C118 | 0.0217 (15) | 0.0267 (16) | 0.0243 (16) | −0.0035 (12) | 0.0013 (13) | −0.0047 (12) |
C311 | 0.0186 (13) | 0.0098 (12) | 0.0171 (13) | 0.0012 (10) | 0.0066 (11) | 0.0014 (10) |
C312 | 0.0165 (13) | 0.0147 (12) | 0.0180 (13) | −0.0017 (10) | 0.0037 (11) | −0.0003 (10) |
C313 | 0.0138 (13) | 0.0189 (13) | 0.0249 (15) | 0.0030 (11) | 0.0059 (11) | 0.0037 (11) |
C314 | 0.0225 (15) | 0.0196 (14) | 0.0242 (15) | 0.0043 (11) | 0.0112 (13) | 0.0025 (11) |
C315 | 0.0211 (14) | 0.0176 (13) | 0.0180 (14) | −0.0002 (11) | 0.0060 (12) | −0.0023 (10) |
C316 | 0.0165 (13) | 0.0143 (12) | 0.0187 (14) | −0.0012 (10) | 0.0041 (11) | −0.0001 (10) |
C321 | 0.0159 (13) | 0.0149 (12) | 0.0163 (13) | −0.0011 (10) | 0.0067 (11) | −0.0025 (10) |
C322 | 0.0173 (14) | 0.0168 (13) | 0.0251 (15) | −0.0012 (11) | 0.0049 (12) | −0.0008 (11) |
C323 | 0.0155 (14) | 0.0265 (16) | 0.0261 (16) | 0.0030 (12) | 0.0001 (12) | 0.0001 (12) |
C324 | 0.0166 (14) | 0.0312 (16) | 0.0283 (16) | −0.0067 (12) | 0.0045 (13) | −0.0052 (13) |
C325 | 0.0317 (18) | 0.0261 (17) | 0.048 (2) | −0.0167 (14) | −0.0006 (16) | 0.0098 (15) |
C326 | 0.0249 (16) | 0.0237 (16) | 0.041 (2) | −0.0047 (13) | −0.0047 (15) | 0.0129 (14) |
C331 | 0.0162 (13) | 0.0134 (12) | 0.0147 (13) | −0.0016 (10) | 0.0014 (11) | −0.0017 (10) |
C332 | 0.0368 (18) | 0.0224 (15) | 0.0195 (15) | 0.0132 (13) | 0.0077 (13) | 0.0011 (12) |
C333 | 0.054 (2) | 0.0313 (17) | 0.0153 (15) | 0.0234 (16) | 0.0113 (15) | 0.0034 (13) |
C334 | 0.0340 (17) | 0.0214 (15) | 0.0188 (15) | 0.0074 (13) | 0.0022 (13) | 0.0031 (12) |
C335 | 0.0246 (15) | 0.0168 (14) | 0.0233 (15) | 0.0049 (11) | 0.0052 (12) | 0.0005 (11) |
C336 | 0.0220 (14) | 0.0160 (13) | 0.0213 (14) | 0.0013 (11) | 0.0075 (12) | −0.0017 (11) |
N11 | 0.0142 (11) | 0.0107 (10) | 0.0191 (12) | −0.0009 (8) | 0.0049 (9) | 0.0012 (8) |
O12 | 0.0152 (9) | 0.0148 (9) | 0.0242 (10) | −0.0008 (8) | 0.0091 (8) | 0.0014 (8) |
O14 | 0.0261 (11) | 0.0180 (10) | 0.0280 (11) | −0.0059 (8) | 0.0152 (9) | −0.0034 (8) |
P13 | 0.0123 (3) | 0.0117 (3) | 0.0142 (3) | −0.0008 (2) | 0.0027 (3) | −0.0002 (2) |
Rh1 | 0.01250 (12) | 0.01060 (11) | 0.01490 (12) | −0.00047 (7) | 0.00457 (8) | 0.00021 (7) |
O01 | 0.139 (5) | 0.057 (3) | 0.104 (4) | −0.010 (3) | 0.054 (4) | 0.007 (2) |
C01 | 0.139 (5) | 0.057 (3) | 0.104 (4) | −0.010 (3) | 0.054 (4) | 0.007 (2) |
C02 | 0.139 (5) | 0.057 (3) | 0.104 (4) | −0.010 (3) | 0.054 (4) | 0.007 (2) |
C1—C2 | 1.513 (4) | C313—H313 | 0.95 |
C1—H1A | 0.98 | C314—C315 | 1.390 (4) |
C1—H1B | 0.98 | C314—H314 | 0.95 |
C1—H1C | 0.98 | C315—C316 | 1.389 (4) |
C2—N11 | 1.320 (4) | C315—H315 | 0.95 |
C2—C3 | 1.420 (4) | C316—H316 | 0.95 |
C3—C4 | 1.384 (4) | C321—C326 | 1.380 (4) |
C3—H3 | 0.95 | C321—C322 | 1.383 (4) |
C4—O12 | 1.289 (3) | C321—P13 | 1.824 (3) |
C4—C5 | 1.507 (4) | C322—C323 | 1.391 (4) |
C5—H5A | 0.98 | C322—H322 | 0.95 |
C5—H5B | 0.98 | C323—C324 | 1.378 (4) |
C5—H5C | 0.98 | C323—H323 | 0.95 |
C14—O14 | 1.154 (3) | C324—C325 | 1.375 (4) |
C14—Rh1 | 1.805 (3) | C324—H324 | 0.95 |
C111—C116 | 1.405 (4) | C325—C326 | 1.394 (4) |
C111—C112 | 1.406 (4) | C325—H325 | 0.95 |
C111—N11 | 1.439 (3) | C326—H326 | 0.95 |
C112—C113 | 1.387 (4) | C331—C332 | 1.385 (4) |
C112—C117 | 1.507 (4) | C331—C336 | 1.400 (4) |
C113—C114 | 1.388 (5) | C331—P13 | 1.827 (3) |
C113—H113 | 0.95 | C332—C333 | 1.383 (4) |
C114—C115 | 1.385 (5) | C332—H332 | 0.95 |
C114—H114 | 0.95 | C333—C334 | 1.386 (4) |
C115—C116 | 1.396 (4) | C333—H333 | 0.95 |
C115—H115 | 0.95 | C334—C335 | 1.380 (4) |
C116—C118 | 1.503 (4) | C334—H334 | 0.95 |
C117—H11A | 0.98 | C335—C336 | 1.390 (4) |
C117—H11B | 0.98 | C335—H335 | 0.95 |
C117—H11C | 0.98 | C336—H336 | 0.95 |
C118—H11D | 0.98 | N11—Rh1 | 2.076 (2) |
C118—H11E | 0.98 | O12—Rh1 | 2.0277 (19) |
C118—H11F | 0.98 | P13—Rh1 | 2.2701 (7) |
C311—C316 | 1.391 (4) | O01—C02 | 1.135 (12) |
C311—C312 | 1.394 (4) | C01—C02 | 1.474 (13) |
C311—P13 | 1.825 (3) | C01—H01A | 0.98 |
C312—C313 | 1.395 (4) | C01—H01B | 0.98 |
C312—H312 | 0.95 | C01—H01C | 0.98 |
C313—C314 | 1.382 (4) | C02—C01i | 1.492 (16) |
C2—C1—H1A | 109.5 | C314—C315—H315 | 119.8 |
C2—C1—H1B | 109.5 | C315—C316—C311 | 120.5 (3) |
H1A—C1—H1B | 109.5 | C315—C316—H316 | 119.7 |
C2—C1—H1C | 109.5 | C311—C316—H316 | 119.7 |
H1A—C1—H1C | 109.5 | C326—C321—C322 | 119.0 (3) |
H1B—C1—H1C | 109.5 | C326—C321—P13 | 121.6 (2) |
N11—C2—C3 | 123.8 (2) | C322—C321—P13 | 119.3 (2) |
N11—C2—C1 | 120.5 (2) | C321—C322—C323 | 120.2 (3) |
C3—C2—C1 | 115.8 (2) | C321—C322—H322 | 119.9 |
C4—C3—C2 | 127.1 (3) | C323—C322—H322 | 119.9 |
C4—C3—H3 | 116.5 | C324—C323—C322 | 120.6 (3) |
C2—C3—H3 | 116.5 | C324—C323—H323 | 119.7 |
O12—C4—C3 | 125.6 (3) | C322—C323—H323 | 119.7 |
O12—C4—C5 | 113.9 (2) | C325—C324—C323 | 119.4 (3) |
C3—C4—C5 | 120.4 (3) | C325—C324—H324 | 120.3 |
C4—C5—H5A | 109.5 | C323—C324—H324 | 120.3 |
C4—C5—H5B | 109.5 | C324—C325—C326 | 120.1 (3) |
H5A—C5—H5B | 109.5 | C324—C325—H325 | 119.9 |
C4—C5—H5C | 109.5 | C326—C325—H325 | 119.9 |
H5A—C5—H5C | 109.5 | C321—C326—C325 | 120.6 (3) |
H5B—C5—H5C | 109.5 | C321—C326—H326 | 119.7 |
O14—C14—Rh1 | 177.7 (2) | C325—C326—H326 | 119.7 |
C116—C111—C112 | 121.1 (3) | C332—C331—C336 | 119.2 (3) |
C116—C111—N11 | 119.5 (2) | C332—C331—P13 | 117.9 (2) |
C112—C111—N11 | 119.3 (2) | C336—C331—P13 | 122.8 (2) |
C113—C112—C111 | 118.4 (3) | C333—C332—C331 | 120.5 (3) |
C113—C112—C117 | 121.2 (3) | C333—C332—H332 | 119.7 |
C111—C112—C117 | 120.4 (3) | C331—C332—H332 | 119.7 |
C112—C113—C114 | 121.3 (3) | C332—C333—C334 | 120.3 (3) |
C112—C113—H113 | 119.3 | C332—C333—H333 | 119.9 |
C114—C113—H113 | 119.3 | C334—C333—H333 | 119.9 |
C115—C114—C113 | 119.6 (3) | C335—C334—C333 | 119.6 (3) |
C115—C114—H114 | 120.2 | C335—C334—H334 | 120.2 |
C113—C114—H114 | 120.2 | C333—C334—H334 | 120.2 |
C114—C115—C116 | 121.2 (3) | C334—C335—C336 | 120.5 (3) |
C114—C115—H115 | 119.4 | C334—C335—H335 | 119.7 |
C116—C115—H115 | 119.4 | C336—C335—H335 | 119.7 |
C115—C116—C111 | 118.3 (3) | C335—C336—C331 | 119.8 (3) |
C115—C116—C118 | 121.3 (3) | C335—C336—H336 | 120.1 |
C111—C116—C118 | 120.4 (3) | C331—C336—H336 | 120.1 |
C112—C117—H11A | 109.5 | C2—N11—C111 | 118.0 (2) |
C112—C117—H11B | 109.5 | C2—N11—Rh1 | 125.79 (18) |
H11A—C117—H11B | 109.5 | C111—N11—Rh1 | 116.24 (17) |
C112—C117—H11C | 109.5 | C4—O12—Rh1 | 127.13 (18) |
H11A—C117—H11C | 109.5 | C311—P13—C321 | 103.27 (12) |
H11B—C117—H11C | 109.5 | C311—P13—C331 | 103.55 (12) |
C116—C118—H11D | 109.5 | C321—P13—C331 | 103.59 (12) |
C116—C118—H11E | 109.5 | C311—P13—Rh1 | 119.08 (9) |
H11D—C118—H11E | 109.5 | C321—P13—Rh1 | 113.64 (9) |
C116—C118—H11F | 109.5 | C331—P13—Rh1 | 112.06 (9) |
H11D—C118—H11F | 109.5 | C14—Rh1—O12 | 177.36 (10) |
H11E—C118—H11F | 109.5 | C14—Rh1—N11 | 93.02 (11) |
C316—C311—C312 | 118.7 (3) | O12—Rh1—N11 | 89.38 (8) |
C316—C311—P13 | 123.2 (2) | C14—Rh1—P13 | 91.59 (9) |
C312—C311—P13 | 118.1 (2) | O12—Rh1—P13 | 85.95 (6) |
C311—C312—C313 | 120.8 (3) | N11—Rh1—P13 | 174.36 (7) |
C311—C312—H312 | 119.6 | C02—C01—H01A | 109.5 |
C313—C312—H312 | 119.6 | C02—C01—H01B | 109.5 |
C314—C313—C312 | 119.8 (3) | H01A—C01—H01B | 109.5 |
C314—C313—H313 | 120.1 | C02—C01—H01C | 109.5 |
C312—C313—H313 | 120.1 | H01A—C01—H01C | 109.5 |
C313—C314—C315 | 119.8 (3) | H01B—C01—H01C | 109.5 |
C313—C314—H314 | 120.1 | O01—C02—C01 | 117.7 (13) |
C315—C314—H314 | 120.1 | O01—C02—C01i | 110.6 (12) |
C316—C315—C314 | 120.3 (3) | C01—C02—C01i | 131.4 (9) |
C316—C315—H315 | 119.8 | ||
N11—C2—C3—C4 | −4.8 (5) | P13—C331—C336—C335 | −179.2 (2) |
C1—C2—C3—C4 | 175.4 (3) | C3—C2—N11—C111 | 178.5 (3) |
C2—C3—C4—O12 | 1.8 (5) | C1—C2—N11—C111 | −1.7 (4) |
C2—C3—C4—C5 | −177.6 (3) | C3—C2—N11—Rh1 | −3.0 (4) |
C116—C111—C112—C113 | −2.1 (4) | C1—C2—N11—Rh1 | 176.8 (2) |
N11—C111—C112—C113 | −177.7 (3) | C116—C111—N11—C2 | 91.5 (3) |
C116—C111—C112—C117 | 177.3 (3) | C112—C111—N11—C2 | −92.9 (3) |
N11—C111—C112—C117 | 1.7 (4) | C116—C111—N11—Rh1 | −87.2 (3) |
C111—C112—C113—C114 | 1.2 (4) | C112—C111—N11—Rh1 | 88.5 (3) |
C117—C112—C113—C114 | −178.3 (3) | C3—C4—O12—Rh1 | 9.0 (4) |
C112—C113—C114—C115 | 0.4 (5) | C5—C4—O12—Rh1 | −171.64 (18) |
C113—C114—C115—C116 | −1.1 (4) | C316—C311—P13—C321 | 9.9 (3) |
C114—C115—C116—C111 | 0.1 (4) | C312—C311—P13—C321 | −171.4 (2) |
C114—C115—C116—C118 | 178.5 (3) | C316—C311—P13—C331 | 117.7 (2) |
C112—C111—C116—C115 | 1.5 (4) | C312—C311—P13—C331 | −63.6 (2) |
N11—C111—C116—C115 | 177.1 (2) | C316—C311—P13—Rh1 | −117.1 (2) |
C112—C111—C116—C118 | −176.9 (3) | C312—C311—P13—Rh1 | 61.6 (2) |
N11—C111—C116—C118 | −1.3 (4) | C326—C321—P13—C311 | 83.9 (3) |
C316—C311—C312—C313 | 0.3 (4) | C322—C321—P13—C311 | −93.4 (2) |
P13—C311—C312—C313 | −178.5 (2) | C326—C321—P13—C331 | −23.8 (3) |
C311—C312—C313—C314 | 0.1 (4) | C322—C321—P13—C331 | 158.9 (2) |
C312—C313—C314—C315 | −0.3 (4) | C326—C321—P13—Rh1 | −145.7 (2) |
C313—C314—C315—C316 | 0.2 (4) | C322—C321—P13—Rh1 | 37.0 (2) |
C314—C315—C316—C311 | 0.1 (4) | C332—C331—P13—C311 | 168.3 (2) |
C312—C311—C316—C315 | −0.4 (4) | C336—C331—P13—C311 | −12.7 (3) |
P13—C311—C316—C315 | 178.3 (2) | C332—C331—P13—C321 | −84.2 (2) |
C326—C321—C322—C323 | −1.5 (4) | C336—C331—P13—C321 | 94.8 (3) |
P13—C321—C322—C323 | 175.9 (2) | C332—C331—P13—Rh1 | 38.7 (3) |
C321—C322—C323—C324 | 2.2 (5) | C336—C331—P13—Rh1 | −142.3 (2) |
C322—C323—C324—C325 | −1.5 (5) | C4—O12—Rh1—N11 | −11.8 (2) |
C323—C324—C325—C326 | 0.2 (6) | C4—O12—Rh1—P13 | 165.0 (2) |
C322—C321—C326—C325 | 0.2 (5) | C2—N11—Rh1—C14 | −170.1 (2) |
P13—C321—C326—C325 | −177.2 (3) | C111—N11—Rh1—C14 | 8.5 (2) |
C324—C325—C326—C321 | 0.5 (6) | C2—N11—Rh1—O12 | 8.8 (2) |
C336—C331—C332—C333 | −0.9 (5) | C111—N11—Rh1—O12 | −172.62 (19) |
P13—C331—C332—C333 | 178.1 (3) | C311—P13—Rh1—C14 | −14.40 (13) |
C331—C332—C333—C334 | 2.0 (5) | C321—P13—Rh1—C14 | −136.42 (13) |
C332—C333—C334—C335 | −2.0 (5) | C331—P13—Rh1—C14 | 106.57 (13) |
C333—C334—C335—C336 | 0.9 (5) | C311—P13—Rh1—O12 | 166.55 (12) |
C334—C335—C336—C331 | 0.2 (4) | C321—P13—Rh1—O12 | 44.53 (11) |
C332—C331—C336—C335 | −0.2 (4) | C331—P13—Rh1—O12 | −72.48 (11) |
Symmetry code: (i) −x+1, −y+1, −z. |
D—H···A | D—H | H···A | D···A | D—H···A |
C332—H332···O12 | 0.95 | 2.38 | 3.201 (3) | 144 |
C334—H334···O14ii | 0.95 | 2.51 | 3.201 (4) | 130 |
C1—H1B···O01iii | 0.98 | 2.54 | 3.372 (9) | 142 |
Symmetry codes: (ii) x, −y+1/2, z+1/2; (iii) −x+1, y+1/2, −z+1/2. |
Experimental details
Crystal data | |
Chemical formula | [Rh(C13H16NO)(C18H15P)(CO)]·0.5C3H6O |
Mr | 624.5 |
Crystal system, space group | Monoclinic, P21/c |
Temperature (K) | 100 |
a, b, c (Å) | 16.8558 (8), 11.4028 (5), 16.4059 (8) |
β (°) | 108.733 (1) |
V (Å3) | 2986.2 (2) |
Z | 4 |
Radiation type | Mo Kα |
µ (mm−1) | 0.66 |
Crystal size (mm) | 0.31 × 0.15 × 0.11 |
Data collection | |
Diffractometer | Bruker X8 APEXII 4K Kappa CCD diffractometer |
Absorption correction | Multi-scan (SADABS; Bruker, 2004) |
Tmin, Tmax | 0.822, 0.931 |
No. of measured, independent and observed ( > 2σI)) reflections | 23158, 7425, 6081 |
Rint | 0.042 |
(sin θ/λ)max (Å−1) | 0.668 |
Refinement | |
R[F2 > 2σ(F2)], wR(F2), S | 0.038, 0.112, 1.09 |
No. of reflections | 7425 |
No. of parameters | 354 |
No. of restraints | 1 |
H-atom treatment | H-atom parameters constrained |
Δρmax, Δρmin (e Å−3) | 1.54, −1.32 |
Computer programs: APEX2 (Bruker, 2005), SAINT-Plus (Bruker, 2004), SIR97 (Altomare et al., 1999), SHELXL97 (Sheldrick, 2008), DIAMOND (Brandenburg & Putz, 2005), WinGX (Farrugia, 1999).
D—H···A | D—H | H···A | D···A | D—H···A |
C332—H332···O12 | 0.95 | 2.38 | 3.201 (3) | 144 |
C334—H334···O14i | 0.95 | 2.51 | 3.201 (4) | 130 |
C1—H1B···O01ii | 0.98 | 2.54 | 3.372 (9) | 142 |
Symmetry codes: (i) x, −y+1/2, z+1/2; (ii) −x+1, y+1/2, −z+1/2. |
Parameters | (I)a | (II)b | (III)c | (IV)d |
Rh1—N11 | 2.077 (2) | 2.069 (2) | 2.045 (4) | 2.045 (3) |
Rh1—O12 | 2.027 (2) | 2.028 (2) | 2.044 (3) | 2.045 (2) |
Rh1—P13 | 2.2704 (7) | 2.2635 (6) | 2.275 (1) | 2.281 (2) |
Rh1—C14 | 1.812 (3) | 1.807 (2) | 1.784 (5) | 1.804 (3) |
C14—O14 | 1.147 (3) | 1.152 (3) | 1.142 (7) | 1.148 (4) |
N11···O12 | 2.885 (3) | 2.885 (3) | 2.826 (6) | 2.841 (3) |
N11—Rh1—O12 | 89.31 (9) | 89.54 (8) | 87.4 (1) | 87.95 (8) |
O12—Rh1—P13 | 85.95 (6) | 84.97 (5) | 89.7 (1) | 89.91 (5) |
P13—Rh1—C14 | 91.57 (9) | 91.87 (7) | 90.3 (2) | 89.48 (9) |
N11—Rh1—C14 | 93.1 (1) | 93.6 (1) | 92.6 (2) | 92.6 (1) |
N11—C2—C4—O12 | -2.6 (2) | 4.1 (2) | 1.2 (4) | 1.5 (2) |
θEe | 155.77 (2) | 156.39 (3) | 156.0 (2) | 156.23 (4) |
Notes: (a) This work; (b) N,O-bid = 4-(2,3-dimethyl phenylamino)pent-3-en-2-onato (Venter et al., 2009); (c) N,O-bid = 4-amino-pent-3-en-2-onato (Damoense et al., 1994); (d) N,O-bid = 4-amino-1,1,1-trifluoro-pent-3-en-2-onato (Varshavsky et al., 2001); (e) Tolman (1977). |
Acknowledgements
Financial assistance from the University of the Free State is gratefully acknowledged, while Mr Leo Kirsten is thanked for the data collection. We also express our gratitude to SASOL and the South African National Research Foundation (SA-NRF/THRIP) for financial support of this project. Part of this material is based on work supported by the SA-NRF/THRIP under grant No. GUN 2068915. Opinions, findings, conclusions or recommendations expressed in this material are those of the authors and do not necessarily reflect the views of the SA-NRF.
References
Altomare, A., Burla, M. C., Camalli, M., Cascarano, G. L., Giacovazzo, C., Guagliardi, A., Moliterni, A. G. G., Polidori, G. & Spagna, R. (1999). J. Appl. Cryst. 32, 115–119. Web of Science CrossRef CAS IUCr Journals Google Scholar
Bonati, F. & Wilkinson, G. (1964). J. Chem. Soc. pp. 3156–3160. CrossRef Web of Science Google Scholar
Brandenburg, K. & Putz, H. (2005). DIAMOND. Crystal Impact GbR, Bonn, Germany. Google Scholar
Bruker (2004). SAINT-Plus and SADABS. Bruker AXS Inc., Madison, Wisconsin, USA. Google Scholar
Bruker (2005). APEX2. Bruker AXS Inc., Madison, Wisconsin, USA. Google Scholar
Cornils, B. & Herrmann, W. A. (1996). Applied Homogeneous Catalysis with Organometallic Compounds. A Comprehensive Handbook, pp. 412–413. Weinheim: VCH. Google Scholar
Damoense, L. J., Purcell, W., Roodt, A. & Leipoldt, J. G. (1994). Rhodium Express, 5, 10–13. CAS Google Scholar
Farrugia, L. J. (1999). J. Appl. Cryst. 32, 837–838. CrossRef CAS IUCr Journals Google Scholar
Shaheen, F., Marchio, L., Badshah, A. & Khosa, M. K. (2006). Acta Cryst. E62, o873–o874. Web of Science CSD CrossRef IUCr Journals Google Scholar
Sheldrick, G. M. (2008). Acta Cryst. A64, 112–122. Web of Science CrossRef CAS IUCr Journals Google Scholar
Tolman, C. A. (1977). Chem. Rev. 77, 313–348. CrossRef CAS Web of Science Google Scholar
Trzeciak, A. M. & Ziolkowski, J. J. (1994). J. Organomet. Chem. 464, 107–111. CrossRef CAS Web of Science Google Scholar
Van Rooy, A., Orji, E. N., Kramer, P. G. J. & Van Leeuwen, P. W. M. N. (1995). Organometallics 14, 34–43. CrossRef CAS Web of Science Google Scholar
Varshavsky, Y. S., Galding, M. R., Cherkasova, T. G., Podkorytov, I. S., Nikol'skii, A. B., Trzeciak, A. M., Olejnik, Z., Lis, T. & Ziolkowski, J. J. (2001). J. Organomet. Chem. 628, 195–210. Web of Science CSD CrossRef CAS Google Scholar
Venter, G. J. S., Steyl, G. & Roodt, A. (2009). Acta Cryst. E65, m1321–m1322. Web of Science CSD CrossRef CAS IUCr Journals Google Scholar
This is an open-access article distributed under the terms of the Creative Commons Attribution (CC-BY) Licence, which permits unrestricted use, distribution, and reproduction in any medium, provided the original authors and source are cited.
Rhodium(I) dicarbonyl complexes of the type [Rh(L,L')(CO)2] containing chelating mono-anionic bidentate (L,L') ligands coordinated to rhodium via (O,O) donor atoms have been studied as catalyst precursors (Cornils & Herrmann, 1996; Trzeciak et al., 1994; Van Rooy et al., 1995). The investigation of these complexes is followed by complexes containing bidentate β-enaminoketonato ligands such as 4-(phenylamino)pent-3-en-2-onato (Phony) (Shaheen et al., 2006) coordinated to rhodium via (N,O) donor atoms. It was suggested that only one CO-group in a [Rh(N,O-bid)(CO)2]-type complex will be substituted by triphenyl phosphine, with the product being one of two possible isomers (Bonati & Wilkinson, 1964). Since the N-donor atom has a larger trans-influence than the O-atom, the CO-group trans to the N-atom will be substituted. This is evident in the title compound, (I), where [Rh(2,6-diMe-Phony)(CO)(PPh3)] is formed by the substitution of the carbonyl ligand in the dicarbonyl rhodium(I) complex [Rh(2,6-diMe-Phony)(CO)2] by PPh3.
In the title complex (Fig. 1), the bond distances involving rhodium differ significantly from the distances in related complexes, with the exception of [Rh(2,3-diMe-Phony)(CO)(PPh3)] (Venter et al., 2009), wherein all angles and distances are comparable to (I) (Table 2). The distance, Rh—N, in (I) is longer than in similar complexes while the Rh—O bond distance is shorter. This is due to the steric influence of the phenyl group connected to nitrogen in the title compound, as opposed to the hydrogen in the related complexes. The Rh—C and the carbonyl C—O distances are comparable with those distances in the related complexes (Table 2). The N—Rh—O bite angle is slightly larger than that observed in similar complexes found in the literature. The effective cone angle, θE, (Tolman, 1977) of 155.77 (2)° is similar to the angles in the related compounds. The acetone solvate was disordered and was located about an inversion center. Intermolecular and intramolecular hydrogen bonds of the type C—H···O are observed in the structure.