Understanding activity trends in electrochemical water oxidation to form hydrogen peroxide

Xinjian Shi; Samira Siahrostami; Guo-Ling Li; Yirui Zhang; Pongkarn Chakthranont; Felix Studt; Thomas F. Jaramillo; Xiaolin Zheng; Jens K. N?rskov

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Understanding activity trends in electrochemical water oxidation to form hydrogen peroxide

机译：了解电化学水氧化形成过氧化氢的活性趋势

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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.

机译：由水氧化电化学生产过氧化氢（H2O2）可以提供一条非常诱人的途径，可以从丰富的资源中本地生产具有化学价值的产品。在本文中，我们使用密度泛函理论计算，预测了在四种不同的金属氧化物（即WO3，SnO2，TiO2和BiVO4）上水氧化生成H2O2的活性的趋势。我们的实验测量进一步证实了密度泛函理论预测H2O2逸出趋势。此外，我们确定BiVO4具有这些氧化物中最佳的H2O2生成量，并且可以实现约98％的法拉第效率以生产H2O2。

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《Nature Communications》 |2017年第1期|共页
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Xinjian Shi; Samira Siahrostami; Guo-Ling Li; Yirui Zhang; Pongkarn Chakthranont; Felix Studt; Thomas F. Jaramillo; Xiaolin Zheng; Jens K. N?rskov;
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2. Activity-Selectivity Trends in the Electrochemical Production of Hydrogen Peroxide over Single-Site Metal-Nitrogen-Carbon Catalysts [J] . Sun Yanyan, Silvioli Luca, Sahraie Nastaran Ranjbar, Journal of the American Chemical Society . 2019,第31期

机译：单点金属-氮-碳催化剂上电化学生产过氧化氢的活性-选择性趋势
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机译：单场金属 - 氮碳催化剂上过氧化氢电化学产生的活性选择性趋势
4. Electrochemical Synthesis of Hydrogen Peroxide from Two-Electron Water Oxidation [C] . Samira Siahrostami, Guo-Ling Li, Xinjian Shi AIChE Annual Meeting . 2016

机译：两电子水氧化的过氧化氢的电化学合成
5. Electrochemical Two-Electron Water Oxidation Toward Hydrogen Peroxide Evolution [D] . Shi, Xinjian. 2020

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6. Understanding activity trends in electrochemical water oxidation to form hydrogen peroxide [O] . Xinjian Shi, Samira Siahrostami, Guo-Ling Li, -1

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8. Catalysis, Architecture and the Electrochemical Performance of Microfibrous Cathodes for Hydrogen Peroxide Based Fuel Cells [R] . Bessette, R. R. , Patrissi, C. J. , Medeiros, M. G. , 2004

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Understanding activity trends in electrochemical water oxidation to form hydrogen peroxide

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