Determination of differential quantum yields in solution by electron paramagnetic resonance spectroscopy

Abstract: Quantitative kinetic studies on the photochemistry of paramagnetic species in solution may be carried out by electron paramagnetic resonance (EPR) spectroscopy. A cylindrical cell can be used as photochemical reactor, but the internal diameter should be less than 1.7 mm in order to achieve the resonance of an aqueous sample in an X-band (9-10 GHz ) spectrometer. In this paper we present a detailed analysis of the fractions of incident light that are reflected, transmitted and absorbed by a liquid solution in a… Show more

“…Other studies have implicated chlorine dioxide (ClO 2 ) as an important species in chlorite redox chemistry and decomposition . However, we did not observe ClO 2 via RGA or EPR under our conditions. Given the sensitivity of EPR and of our mass spectrometer RGA (10 −9 Torr), it is compelling to conclude that ClO 2 is not formed/accumulated by our catalytic reactions to any appreciable extent.…”

Concerted Dismutation of Chlorite Ion: Water-Soluble Iron-Porphyrins As First Generation Model Complexes for Chlorite Dismutase

“…Other studies have implicated chlorine dioxide (ClO 2 ) as an important species in chlorite redox chemistry and decomposition . However, we did not observe ClO 2 via RGA or EPR under our conditions. Given the sensitivity of EPR and of our mass spectrometer RGA (10 −9 Torr), it is compelling to conclude that ClO 2 is not formed/accumulated by our catalytic reactions to any appreciable extent.…”

Concerted Dismutation of Chlorite Ion: Water-Soluble Iron-Porphyrins As First Generation Model Complexes for Chlorite Dismutase

Reduced mechanism for the 366nm chlorine dioxide photodecomposition in N2-saturated aqueous solutions