Analysis of the ν3 bands of natural OsO4 from high-resolution Fourier transform infrared spectroscopy

The first high-resolution (0.002 cm 01 ) infrared spectra of the reactive molecule thionylimide, HNSO, are reported. The n 3 (NS stretching) and n 5 (NSO bending) fundamentals at 1086 and 448 cm 01 , respectively, have been analyzed in detail. The ground state rotational constants have been substant

For the first time, high-resolution infrared gas-phase absorption spectra of the BrNO 2 molecule were recorded using a Fourier-transform spectrometer. In this paper, the 4 bands of the 79 BrNO 2 and 81 BrNO 2 isotopomers around 1670 cm Ϫ1 are investigated. Although the spectra are highly congested,

A reanalysis of the n 3 , n 4 , and n 6 interacting bands of D 2 CO has been carried out in the region 850-1250 cm 01 using high-resolution Fourier transform spectra recorded at Giessen. As compared to the previous study of these bands (1987, K. Nakagawa, R. H. Schwendeman, and J. W. C. Johns, J. Mo

High-resolution infrared spectra of the low-lying \(\nu_{3}, \nu_{4}\), and \(\nu_{5}\) fundamentals of the transient molecule DCOCl are reported. These type- \(A / B\) hybrid bands have been analyzed in detail, providing extensive rotational assignments for the \(\mathrm{DCO}^{35} \mathrm{Cl}\) and