Charge-transfer-energy-dependent oxygen evolution reaction mechanisms for perovskite oxides

Wesley T. Hong; Kelsey A. Stoerzinger; Yueh‐Lin Lee; Livia Giordano; Alexis Grimaud; Alyssa M. Johnson; Jonathan Hwang; Ethan J. Crumlin; Wanli Yang; Yang Shao‐Horn

doi:10.1039/c7ee02052j

Charge-transfer-energy-dependent oxygen evolution reaction mechanisms for perovskite oxides

Wesley T. Hong(Massachusetts Institute of Technology), Kelsey A. Stoerzinger(Massachusetts Institute of Technology), Yueh‐Lin Lee(Massachusetts Institute of Technology), Livia Giordano(Istituto Officina dei Materiali), Alexis Grimaud(Massachusetts Institute of Technology), Alyssa M. Johnson(University of St. Thomas - Minnesota), Jonathan Hwang(Massachusetts Institute of Technology), Ethan J. Crumlin(Berkeley College), Wanli Yang(Berkeley College), Yang Shao‐Horn(Massachusetts Institute of Technology)

Energy & Environmental Science

January 1, 2017

10.1039/c7ee02052j

Cited by 586

Abstract

This work experimentally identifies the charge-transfer energy as a key factor governing the catalytic oxygen evolution reaction (OER) activity and mechanism across a wide range of perovskite chemistries.

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