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Selective Electrochemical Generation of Hydrogen Peroxide from Oxygen Reduction on Atomically Dispersed Platinum

Yunchao Yin, Yi Shi, Yibai Sun, Dong‐Rui Yang, Yang Liu, Xing‐Hua Xia

2021ACS Applied Energy Materials20 citationsDOI

Abstract

A catalyst with an atomically dispersed metal center may provide an ideal structure for the electrochemical synthesis of H2O2 due to the distinct chemoselectivity. Herein, we report a simple electrochemical method to prepare atomically dispersed Pt catalyst on a sulfur-doped carbon structure (Pt1-meso-S-C) by underpotential deposition (UPD) of copper atoms followed by a galvanic replacement reaction under ambient conditions. Sulfur doping in the carbon structure shows a strong affinity to metal atoms, resulting in underpotential deposition (UPD) of a single copper adatom at a potential positive to its thermodynamic equilibrium potential. Galvanic replacement of the UPD Cu by platinum precursor leads to the formation of a single-atom Pt catalyst on a sulfur-doped carbon structure. This Pt1-meso-S-C acts as a highly selective catalyst for the electrochemical reduction of O2 into H2O2 without promoting consecutive H2O2 decomposition. However, the catalysts (Ptn-meso-S-C and Pt/C) with the platinum ensemble sites exhibit a four-electron pathway for oxygen reduction reaction (ORR) and the consecutive H2O2 decomposition. This work demonstrates that the reaction mechanism can be adjusted by the dispersion of metal catalysts.

Topics & Concepts

Underpotential depositionCatalysisPlatinumElectrochemistryInorganic chemistryChemistryGalvanic cellMaterials scienceMetalElectrocatalystPhysical chemistryElectrodeCyclic voltammetryOrganic chemistryElectrocatalysts for Energy ConversionAdvanced battery technologies researchFuel Cells and Related Materials
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