Dye-sensitized photodegradation of the fungicide carbendazim and related benzimidazoles

JUAN P. ESCALADA; ADRIANA PAJARES; JOSE´ GIANOTTI; WALTER A. MASSAD; SONIA BERTOLOTTI; FRANCISCO AMAT-GUERRI; NORMAN A. GARCı´A

CHEMOSPHERE

Elsevier Science

Lugar: Amsterdam; Año: 2006 vol. 65 p. 237 - 244

0045-6535

The present work studies the visible-light-promoted photodegradation of the colorless fungicide carbendazim (methyl 2-benzimidazolecarbamate) and several 2-substituted benzimidazoles (SBZ?s), in water or water?methanol solution, in the presence of air and, as a photosensitizer, the synthetic xanthene dye Rose Bengal (RB) or the natural pigment riboflavin (Rf). The results indicate that the degradation of each particular SBZ depends on its chemical structure and on the sensitizer employed. In the presence of RB, the degradation always operates via a singlet molecular oxygen (O2(1Dg))-mediated mechanism, through a highly efficient process, as deduced from the comparison of the rate constants for physical and chemical quenching of O2(1Dg). In the presence of Rf, the visible-light irradiation of any of the studied SBZ?s produces a series of competitive processes that depend on the relative concentrations of Rf and SBZ. These processes include the quenching of excited singlet and triplet Rf states by the SBZ and the generation of both O2(1Dg) and superoxide radical anion ðO 2 Þ, the latter generated by electron transfer from excited Rf species to the dissolved oxygen. The overall result is the photodegradation of the SBZ and the photoprotection of the sensitizer.2(1Dg))-mediated mechanism, through a highly efficient process, as deduced from the comparison of the rate constants for physical and chemical quenching of O2(1Dg). In the presence of Rf, the visible-light irradiation of any of the studied SBZ?s produces a series of competitive processes that depend on the relative concentrations of Rf and SBZ. These processes include the quenching of excited singlet and triplet Rf states by the SBZ and the generation of both O2(1Dg) and superoxide radical anion ðO 2 Þ, the latter generated by electron transfer from excited Rf species to the dissolved oxygen. The overall result is the photodegradation of the SBZ and the photoprotection of the sensitizer.2(1Dg). In the presence of Rf, the visible-light irradiation of any of the studied SBZ?s produces a series of competitive processes that depend on the relative concentrations of Rf and SBZ. These processes include the quenching of excited singlet and triplet Rf states by the SBZ and the generation of both O2(1Dg) and superoxide radical anion ðO 2 Þ, the latter generated by electron transfer from excited Rf species to the dissolved oxygen. The overall result is the photodegradation of the SBZ and the photoprotection of the sensitizer.2(1Dg) and superoxide radical anion ðO 2 Þ, the latter generated by electron transfer from excited Rf species to the dissolved oxygen. The overall result is the photodegradation of the SBZ and the photoprotection of the sensitizer.ðO 2 Þ, the latter generated by electron transfer from excited Rf species to the dissolved oxygen. The overall result is the photodegradation of the SBZ and the photoprotection of the sensitizer.