Abstract

H2O2 is a valuable, environmentally friendly oxidizing agent with a wide range of uses from the provision of clean water to the synthesis of valuable chemicals. The on-site electrolytic production of H2O2 would bring the chemical to applications beyond its present reach. The successful commercialization of electrochemical H2O2 production requires cathode catalysts with high activity, selectivity, and stability. In this Perspective, we highlight our current understanding of the factors that control the cathode performance. We review the influence of catalyst material, electrolyte, and the structure of the interface at the mesoscopic scale. We provide original theoretical data on the role of the geometry of the active site and its influence on activity and selectivity. We have also conducted a series of original experiments on (i) the effect of pH on H2O2 production on glassy carbon, pure metals, and metal–mercury alloys, and (ii) the influence of cell geometry and mass transport in liquid half-cells in comparison to membrane electrode assemblies.

Keywords

CatalysisElectrochemistryProduction (economics)Focus (optics)ElectrocatalystChemistryMaterials scienceNanotechnologyChemical engineeringPhysicsOrganic chemistryPhysical chemistryEngineeringElectrode

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Publication Info

Year
2018
Type
article
Volume
8
Issue
5
Pages
4064-4081
Citations
1079
Access
Closed

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Cite This

Sungeun Yang, Arnau Verdaguer‐Casadevall, Logi Arnarson et al. (2018). Toward the Decentralized Electrochemical Production of H<sub>2</sub>O<sub>2</sub>: A Focus on the Catalysis. ACS Catalysis , 8 (5) , 4064-4081. https://doi.org/10.1021/acscatal.8b00217

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DOI
10.1021/acscatal.8b00217