Rational Design of Cost-Effective Metal-Doped ZrO2 for Oxygen Evolution Reaction

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review

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Author(s)

  • Tianyi Wang
  • Ruijie Yang
  • Weiwei Guo
  • Hao Li

Detail(s)

Original languageEnglish
Article number180
Journal / PublicationNano-Micro Letters
Volume16
Issue number1
Online published25 Apr 2024
Publication statusOnline published - 25 Apr 2024

Link(s)

Abstract

The design of cost-effective electrocatalysts is an open challenging for oxygen evolution reaction (OER) due to the “stable-or-active” dilemma. Zirconium dioxide (ZrO2), a versatile and low-cost material that can be stable under OER operating conditions, exhibits inherently poor OER activity from experimental observations. Herein, we doped a series of metal elements to regulate the ZrO2 catalytic activity in OER via spin-polarized density functional theory calculations with van der Waals interactions. Microkinetic modeling as a function of the OER activity descriptor (GO*-GHO*) displays that 16 metal dopants enable to enhance OER activities over a thermodynamically stable ZrO2 surface, among which Fe and Rh (in the form of single-atom dopant) reach the volcano peak (i.e. the optimal activity of OER under the potential of interest), indicating excellent OER performance. Free energy diagram calculations, density of states, and ab initio molecular dynamics simulations further showed that Fe and Rh are the effective dopants for ZrO2, leading to low OER overpotential, high conductivity, and good stability. Considering cost-effectiveness, single-atom Fe doped ZrO2 emerged as the most promising catalyst for OER. This finding offers a valuable perspective and reference for experimental researchers to design cost-effective catalysts for the industrial-scale OER production. © The Author(s) 2024.

Research Area(s)

  • Doping, Electrocatalysis, Metal oxide, Oxygen evolution reaction, Surface Pourbaix analysis

Citation Format(s)

Rational Design of Cost-Effective Metal-Doped ZrO2 for Oxygen Evolution Reaction. / Zhang, Yuefeng; Wang, Tianyi; Mei, Liang et al.
In: Nano-Micro Letters, Vol. 16, No. 1, 180, 12.2024.

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review

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