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Cation-Triggered Growth of Nanowires for Enhanced Oxygen Evolution Reaction.

Ling WangWanqing YeZhilin ZhangYutao HuaChenyang CaiZhenghao ZhangYitian WuKui WangWenshu YangWeidong ShiJinhui Hao
Published in: Inorganic chemistry (2024)
The oxygen evolution reaction (OER), which occurs in a variety of energy-related devices, necessitates optimization of the reaction pathways for efficient and scalable deployment. Nevertheless, fully harnessing the advanced structure of synthetic electrocatalysts remains a significant challenge due to the inevitable surface reconstruction process during OER. Here we present an efficient and flexible method to control the surface reconstruction process by engineering an electrolyte containing trace Co 2+ cation. This controllable reconstruction process enhances fast charge transfer, facilitates electroactive species transport, and exposes the inner active site, significantly improving the OER kinetics. An impressive 60% increase in current density at an applied potential of 2.2 V (vs RHE) confirms its remarkable contribution to the performance. The identification of cation-triggered reconstruction for the formation of a well-defined surface provides a novel insight into understanding electrolyte engineering and offers a viable pathway to address activity and stable concerns in electrocatalysts.
Keyphrases
  • ionic liquid
  • room temperature
  • machine learning
  • solid state