Guo Ling Li scite author profile

Electrochemical production of hydrogen peroxide (H2O2) from water oxidation could provide a very attractive route to locally produce a chemically valuable product from an abundant resource. Herein using density functional theory calculations, we predict trends in activity for water oxidation towards H2O2 evolution on four different metal oxides, i.e., WO3, SnO2, TiO2 and BiVO4. The density functional theory predicted trend for H2O2 evolution is further confirmed by our experimental measurements. Moreover, we identify that BiVO4 has the best H2O2 generation amount of those oxides and can achieve a Faraday efficiency of about 98% for H2O2 production.

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One- or Two-Electron Water Oxidation, Hydroxyl Radical, or H₂O₂ Evolution

Siahrostami

Viswanathan

et al. 2017

J. Phys. Chem. Lett.

283

281

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Electrochemical or photoelectrochemcial oxidation of water to form hydrogen peroxide (HO) or hydroxyl radicals (OH) offers a very attractive route to water disinfection, and the first process could be the basis for a clean way to produce hydrogen peroxide. A major obstacle in the development of effective catalysts for these reactions is that the electrocatalyst must suppress the thermodynamically favored four-electron pathway leading to O evolution. We develop a thermochemical picture of the catalyst properties that determine selectivity toward the one, two, and four electron processes leading to OH, HO, and O.

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Guo Ling Li

Understanding activity trends in electrochemical water oxidation to form hydrogen peroxide

One- or Two-Electron Water Oxidation, Hydroxyl Radical, or H₂O₂ Evolution

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Guo Ling Li

Understanding activity trends in electrochemical water oxidation to form hydrogen peroxide

One- or Two-Electron Water Oxidation, Hydroxyl Radical, or H2O2 Evolution

Contact Info

Product

Resources

About

One- or Two-Electron Water Oxidation, Hydroxyl Radical, or H₂O₂ Evolution