Deactivation of singlet molecular oxygen by organo-selenium compounds exhibiting glutathione peroxidase activity and by sulfur-containing homologs

Deactivation of singlet molecular oxygen by organo-selenium compounds exhibiting glutathione peroxidase activity and by sulfur-containing homologs

The bimolecular rate constants (k) of quenching of molecular singlet oxygen 1O2 (1 delta g) by organo-selenium compounds exhibiting glutathione peroxidase activity and by sulfur analogs have been determined by time resolved phosphorescence detection of 1O2 in CD3OD and C6D6, with no solvent effect....

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Bibliographic Details
Published in:Photochemistry and photobiology Vol. 54; no. 5; p. 733
Main Authors: Scurlock, R, Rougée, M, Bensasson, R V, Evers, M, Dereu, N
Format: Journal Article
Language:English
Published: United States 01-11-1991
Subjects:
Antioxidants - chemistry
Azoles - chemistry
Glutathione Peroxidase
Kinetics
Luminescence
Organoselenium Compounds - chemistry
Oxygen - chemistry
Photochemistry
Radiation-Protective Agents - chemistry
Sulfur - chemistry
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Summary:The bimolecular rate constants (k) of quenching of molecular singlet oxygen 1O2 (1 delta g) by organo-selenium compounds exhibiting glutathione peroxidase activity and by sulfur analogs have been determined by time resolved phosphorescence detection of 1O2 in CD3OD and C6D6, with no solvent effect. The rate constants of quenching by the Se-containing compounds were found to be approximately one order of magnitude higher than those of the S-containing homologs. A linear correlation was observed between log k and the Hammett constant omega ortho with p = -0.89, the rate constant being higher for molecules with an electron-donating substituent and lower for those with an electron-withdrawing substituent. This observation is consistent with the involvement of a charge transfer complex in the deactivation of singlet oxygen.
ISSN:0031-8655
DOI:10.1111/j.1751-1097.1991.tb02082.x