Deciphering Catalyst–Support Interaction via Doping for Highly Active and Durable Oxygen Evolution Catalysis

化学 催化作用 兴奋剂 氧气 有机化学 光电子学 物理
作者
Jinyeop Kim,Jinglong Guo,Nannan Shan,Ji Mun Yoo,Pedro Farinazzo Bergamo Dias Martins,Jongsu Noh,Moonjung Jung,Peter Zapol,Bongjin Simon Mun,Robert F. Klie,Pietro Papa Lopes,Nenad M. Marković,Dong Young Chung
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:147 (19): 16340-16349 被引量:37
标识
DOI:10.1021/jacs.5c02001
摘要

The design of oxygen evolution reaction (OER) electrocatalysts demands a delicate balance between activity and stability. In this study, we present a rational design approach that leverages catalyst-support interactions to enhance both the intrinsic activity and durability of Ir-based catalysts. Our study reveals that while Mo doping energetically promotes the formation of high-valent Ir species, enhancing intrinsic catalytic activity, it also leads to a reduction in electrical conductivity. These findings emphasize that supporting doping can introduce both beneficial and limiting effects, highlighting the need for a carefully balanced design strategy to optimize the overall OER performance. Simultaneously, in situ analytical techniques and comparative evaluation reveal the crucial role of oxide supports in stabilizing the catalyst. These findings highlight the pivotal role of interface engineering in maintaining catalyst integrity and the need for support materials that balance dopant-driven electronic promotion with structural and electrochemical robustness. These interconnected degradation pathways highlight the need to move beyond a catalyst-centric view and instead adopt a system-level understanding of the stability. Our approach offers a strong foundation for the rational design and evaluation of high-performance OER electrocatalysts for electrochemical energy applications.
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