回顾--碱性水电解中 HER 的自支撑电催化剂

Endao Zhang, Wei Song
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摘要

氢是替代化石燃料的主要候选燃料。电解水制氢是一种特别清洁的方法,近年来备受研究人员的关注。在各种电解水制氢技术中,碱性电解最有希望实现大规模工业化。推动这项技术发展的关键在于开发出持久耐用、经济高效的氢进化反应(HER)电催化剂。自支撑电极是一种不使用粘合剂而直接在基底(如碳布、泡沫镍、不锈钢等)上形成催化剂层并具有良好结构稳定性的电极结构。与传统的纳米催化剂相比,自支撑电催化剂具有显著的优势,包括降低电阻、增强稳定性和在大电流下的长期可用性。本文回顾了用于碱性水电解的氢催化还原电化学催化剂的最新进展,重点介绍了氢还原催化剂(如金属硫化物、磷化物、硒化物、氧化物和氢氧化物)的利用。论文以自支撑电催化剂为重点,深入探讨了其在制备技术、结构设计、反应机理理解和性能提升策略等方面取得的进展。最后,总结了在碱性水电解中利用自支撑电催化剂促进氢进化的未来发展方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Review—Self-Supporting Electrocatalysts for HER in Alkaline Water Electrolysis
Hydrogen is a prime candidate for replacing fossil fuels. Electrolyzing water to produce hydrogen stands out as a particularly clean method, garnering significant attention from researchers in recent years. Among the various techniques for electrolyzing water to produce hydrogen, alkaline electrolysis holds the most promise for large-scale industrialization. The key to advancing this technology lies in the development of durable and cost-effective electrocatalysts for the hydrogen evolution reaction (HER). Self-supporting electrode is an electrode structure in which a catalyst layer is formed directly on a substrate (such as carbon cloth, nickel foam, stainless steel, etc.) without using a binder and with good structural stability. In contrast to traditional nanocatalysts, self-supporting electrocatalysts offer significant advantages, including reduced resistance, enhanced stability, and prolonged usability under high currents. This paper reviews recent advancements in HER electrochemical catalysts for alkaline water electrolysis, focusing on the utilization of hydrogen-evolving catalysts such as metal sulfides, phosphides, selenides, oxides, and hydroxides. With self-supported electrocatalysts as the focal point, the paper delves into progress made in their preparation techniques, structural design, understanding of reaction mechanisms, and strategies for performance enhancement. Ultimately, the future development direction of promoting hydrogen evolution by self-supported electrocatalysts in alkaline water electrolysis is summarized.
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