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Hierarchical palladium catalyst for highly active and stable water oxidation in acidic media

Acidic water electrolysis is of great importance for boosting the development of renewable energy. However, it severely suffers from the trade-off between high activity and long lifespan for oxygen evolution catalysts on the anode side. This is because the sluggish kinetics of oxygen evolution react...

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Autores principales: Peng, Jing, Sun, Haofeng, Ni, Kun, Wu, Jiajing, Sun, Xinyu, Su, Yueqi, Cheng, Han, Liu, Yuhua, Guo, Yuqiao, Bi, Wentuan, Zhu, Yanwu, Wu, Changzheng, Xie, Yi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10035503/
https://www.ncbi.nlm.nih.gov/pubmed/36969369
http://dx.doi.org/10.1093/nsr/nwac108
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author Peng, Jing
Sun, Haofeng
Ni, Kun
Wu, Jiajing
Sun, Xinyu
Su, Yueqi
Cheng, Han
Liu, Yuhua
Guo, Yuqiao
Bi, Wentuan
Zhu, Yanwu
Wu, Changzheng
Xie, Yi
author_facet Peng, Jing
Sun, Haofeng
Ni, Kun
Wu, Jiajing
Sun, Xinyu
Su, Yueqi
Cheng, Han
Liu, Yuhua
Guo, Yuqiao
Bi, Wentuan
Zhu, Yanwu
Wu, Changzheng
Xie, Yi
author_sort Peng, Jing
collection PubMed
description Acidic water electrolysis is of great importance for boosting the development of renewable energy. However, it severely suffers from the trade-off between high activity and long lifespan for oxygen evolution catalysts on the anode side. This is because the sluggish kinetics of oxygen evolution reaction necessitates the application of a high overpotential to achieve considerable current, which inevitably drives the catalysts far away from their thermodynamic equilibrium states. Here we demonstrate a new oxygen evolution model catalyst-hierarchical palladium (Pd) whose performance even surpasses the benchmark Ir- and Ru-based materials. The Pd catalyst displays an ultralow overpotential (196 mV), excellent durability and mitigated degradation (66 μV h(−1)) at 10 mA cm(−2) in 1 M HClO(4). Tensile strain on Pd (111) facets weakens the binding of oxygen species on electrochemical etching-derived hierarchical Pd and thereby leads to two orders of magnitudes of enhancement of mass activity in comparison to the parent Pd bulk materials. Furthermore, the Pd catalyst displays the bifunctional catalytic properties for both oxygen and hydrogen evolutions and can deliver a current density of 2 A cm(–2) at a low cell voltage of 1.771 V when fabricated into polymer electrolyte membrane electrolyser.
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spelling pubmed-100355032023-03-24 Hierarchical palladium catalyst for highly active and stable water oxidation in acidic media Peng, Jing Sun, Haofeng Ni, Kun Wu, Jiajing Sun, Xinyu Su, Yueqi Cheng, Han Liu, Yuhua Guo, Yuqiao Bi, Wentuan Zhu, Yanwu Wu, Changzheng Xie, Yi Natl Sci Rev Research Article Acidic water electrolysis is of great importance for boosting the development of renewable energy. However, it severely suffers from the trade-off between high activity and long lifespan for oxygen evolution catalysts on the anode side. This is because the sluggish kinetics of oxygen evolution reaction necessitates the application of a high overpotential to achieve considerable current, which inevitably drives the catalysts far away from their thermodynamic equilibrium states. Here we demonstrate a new oxygen evolution model catalyst-hierarchical palladium (Pd) whose performance even surpasses the benchmark Ir- and Ru-based materials. The Pd catalyst displays an ultralow overpotential (196 mV), excellent durability and mitigated degradation (66 μV h(−1)) at 10 mA cm(−2) in 1 M HClO(4). Tensile strain on Pd (111) facets weakens the binding of oxygen species on electrochemical etching-derived hierarchical Pd and thereby leads to two orders of magnitudes of enhancement of mass activity in comparison to the parent Pd bulk materials. Furthermore, the Pd catalyst displays the bifunctional catalytic properties for both oxygen and hydrogen evolutions and can deliver a current density of 2 A cm(–2) at a low cell voltage of 1.771 V when fabricated into polymer electrolyte membrane electrolyser. Oxford University Press 2022-06-09 /pmc/articles/PMC10035503/ /pubmed/36969369 http://dx.doi.org/10.1093/nsr/nwac108 Text en © The Author(s) 2022. Published by Oxford University Press on behalf of China Science Publishing & Media Ltd. https://creativecommons.org/licenses/by/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Peng, Jing
Sun, Haofeng
Ni, Kun
Wu, Jiajing
Sun, Xinyu
Su, Yueqi
Cheng, Han
Liu, Yuhua
Guo, Yuqiao
Bi, Wentuan
Zhu, Yanwu
Wu, Changzheng
Xie, Yi
Hierarchical palladium catalyst for highly active and stable water oxidation in acidic media
title Hierarchical palladium catalyst for highly active and stable water oxidation in acidic media
title_full Hierarchical palladium catalyst for highly active and stable water oxidation in acidic media
title_fullStr Hierarchical palladium catalyst for highly active and stable water oxidation in acidic media
title_full_unstemmed Hierarchical palladium catalyst for highly active and stable water oxidation in acidic media
title_short Hierarchical palladium catalyst for highly active and stable water oxidation in acidic media
title_sort hierarchical palladium catalyst for highly active and stable water oxidation in acidic media
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10035503/
https://www.ncbi.nlm.nih.gov/pubmed/36969369
http://dx.doi.org/10.1093/nsr/nwac108
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