1. A spectroscopic and photoisomerisation study of bromine dioxides in argon matrices
- Author
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Otto Schrems, Anders Engdahl, J. Kölm, and Bengt Nelander
- Subjects
Fluid Flow and Transfer Processes ,Atmospheric Science ,Bromine ,Argon ,Environmental Engineering ,Chemistry ,Wavelength range ,Mechanical Engineering ,Analytical chemistry ,General Physics and Astronomy ,chemistry.chemical_element ,Pollution ,Wavelength ,Matrix (mathematics) ,Molecular oxygen ,Physical and Theoretical Chemistry ,Fourier transform infrared spectroscopy ,Isomerization - Abstract
The FTIR and UV spectra of OBrO have been measured in solid argon matrices at 17 and 4 K. All three fundamentals of OBrO could be observed. The previously unknown frequency of the bending vibration ( ν 2 ) was located at 317.0/316.3 cm −1 for 16 O 79 Br 16 O/ 16 O 81 Br 16 O and at 302.1/301.4 cm −1 for 18 O 79 Br 18 O/ 18 O 81 Br 18 . OBrO was synthesised by photoisomerising BrOO at 275 nm. The BrOO/argon matrix was prepared by adding bromine atoms from a discharge flow system to molecular oxygen on the surface of a growing argon matrix. We show that the photoisomerisation of BrOO to OBrO is reversible. In addition the wavelength dependency of the OBrO and BrOO photochemistry in argon matrices and the isomerisation rate has been determined in the wavelength range from 200 to 600 nm.
- Published
- 1997
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