Vibrational Spectra of Nitrosyl-Substituted Transition-Metal Hydride Complexes: 
An Experimental and Theoretical Study of 
Carbonyldihydronitrosyl(trimethylphosphine)rhenium ([Re(CO)H2(NO)(PMe3)2])

Jacobsen, Heiko; Jonas, Volker; Werner, David; Messmer, Andreas; Panitz, Jan-Christoph; Berke, Heinz; Thiel, Walter

doi:10.1002/(SICI)1522-2675(19990210)82:2<297::AID-HLCA297>3.0.CO;2-Y

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Vibrational Spectra of Nitrosyl-Substituted Transition-Metal Hydride Complexes: An Experimental and Theoretical Study of Carbonyldihydronitrosyl(trimethylphosphine)rhenium ([Re(CO)H₂(NO)(PMe₃)₂])

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Jacobsen, H., Jonas, V., Werner, D., Messmer, A., Panitz, J.-C., Berke, H., et al. (1999). Vibrational Spectra of Nitrosyl-Substituted Transition-Metal Hydride Complexes: An Experimental and Theoretical Study of Carbonyldihydronitrosyl(trimethylphosphine)rhenium ([Re(CO)H₂(NO)(PMe₃)₂]). Helvetica Chimica Acta, 82(2), 297-307. doi:10.1002/(SICI)1522-2675(19990210)82:2<297:AID-HLCA297>3.0.CO;2-Y.

Cite as: https://hdl.handle.net/11858/00-001M-0000-0024-4885-C

Abstract

The vibrational frequencies of carbonyldihydronitrosyl(trimethylphosphine)rhenium ([Re(CO)H₂(NO)(PMe₃)₂]; 1 a) and of its deuterated derivatives 1 b and 1 c have been investigated by IR and Raman spectroscopy (only 1 a) and by gradient-corrected density-functional calculations. Complex 1 a possesses two well separated ѷ_ReH stretching vibrational modes, which couple with the ѷ_XO stretching mode (X=N, C) of the ligand in trans position, but which do not couple with each other. These modes significantly differ in their IR intensities, so that only the ѷ_ReH band of the H-ligand trans to the nitrosyl ligand can be observed in the experiment. With Raman spectroscopy, both ѷ_ReH stretching vibrational modes can be observed. Computed frequencies, IR intensities, and force constants are presented. The influence of basis-set size and of the accuracy of the numerical integration scheme is investigated: the correct description of the intensities requires large basis sets and accurate numerical integration. Calculations have been extended to include the complexes [Re(CO)H₂(NO)(PH₃)₂] (2) and [Re(CO)H₂(NO)(PF₃)₂] (3) in order to study influences of different P-donor ligands.