期刊
PHYSICAL CHEMISTRY CHEMICAL PHYSICS
卷 3, 期 16, 页码 3284-3289出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/b101077h
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Experiments have revealed that H2O2 reduction at Pt electrodes in acidic solution have two stationary states of low and high current densities (j), called LC- and HC-mechanism states, respectively. The LC-mechanism state, to which all the reported results belong, shows a potential-independent low j, determined by the rate of the dissociative adsorption of H2O2 (the first step of the H2O2 reduction), over a wide potential region. On the other hand, the HC-mechanism state shows a potential-dependent (high) j, determined by the rate of the following electrochemical reduction of resultant adsorbed OH, throughout the potential region measured. The LC-mechanism state tends to appear for rough-surface Pt and in relatively low H2O2 concentrations (less than or equal to0.5 M), whereas the HC-mechanism state tends to appear for flat-surface Pt and in high H2O2 concentrations (greater than or equal to0.9 M). Under intermediate conditions, both states appear, depending on the experimental parameters. It is concluded that the HC-mechanism state results from double positive feedback mechanisms, i.e., increased adsorbed OH due to the increase in surface H2O2 Concentration by effective solution stirring through catalytic oxygen-gas evolution from the increased adsorbed OH, and increased adsorbed OH due to the increased dissociative adsorption of H2O2 as an autocatalytic effect of the increased adsorbed OH.
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