Abstract
We proposed a novel method to analyze the photocatalytic reactions of TiO₂ suspension by measuring the consumption process of dissolved oxygen (DO). The decay rates for DO consumption could be analyzed with Langmuir-Hinshelwood (L-H) kinetics as the effects of reactants such as ethanol and iso-propanol. Two parameters in the L-H kinetics, the maximum consumption rate rmax and adsorption equilibrium constant KD was obtained. The rate constants, k_t and k_p , which express O₂ consumption and O₂ reproduction, respectively, could be estimated from the dependence of rmax on the excitation intensity. Participation of O₂・^- in the decomposition of alcohols was examined by measuring the amount of O₂・^- . An increase of O₂・^- concentration was observed by the addition of a small amount of the reactants, and a decrease was observed for the reactant concentration of more than few mM. Based on these results, we analyzed the DO consumption process and suggested the applicability that the DO consumption efficiency can be used as a relative photonic efficiency to compare the differences in the photocatalytic activities and in the stabilities of reactants.

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