Templated synthesis of transition metal phosphide electrocatalysts for oxygen and hydrogen evolution reactions

IF 14 1区 化学 Q1 CHEMISTRY, APPLIED 能源化学 Pub Date : 2023-11-08 DOI:10.1016/j.jechem.2023.10.044
Rose Anne Acedera , Alicia Theresse Dumlao , DJ Donn Matienzo , Maricor Divinagracia , Julie Anne Paraggua , Po-Ya Abel Chuang , Joey Ocon
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Abstract

Transition metal phosphides (TMPs) have been regarded as alternative hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) catalysts owing to their comparable activity to those of noble metal-based catalysts. TMPs have been produced in various morphologies, including hollow and porous nanostructures, which are features deemed desirable for electrocatalytic materials. Templated synthesis routes are often responsible for such morphologies. This paper reviews the latest advances and existing challenges in the synthesis of TMP-based OER and HER catalysts through templated methods. A comprehensive review of the structure–property–performance of TMP-based HER and OER catalysts prepared using different templates is presented. The discussion proceeds according to application, first by HER and further divided among the types of templates used—from hard templates, sacrificial templates, and soft templates to the emerging dynamic hydrogen bubble template. OER catalysts are then reviewed and grouped according to their morphology. Finally, prospective research directions for the synthesis of hollow and porous TMP-based catalysts, such as improvements on both activity and stability of TMPs, design of environmentally benign templates and processes, and analysis of the reaction mechanism through advanced material characterization techniques and theoretical calculations, are suggested.

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模板化合成出氧、出氢过渡金属磷化物电催化剂
过渡金属磷化物(TMPs)由于具有与贵金属基催化剂相当的活性,被认为是析氢反应(HER)和析氧反应(OER)的替代催化剂。TMPs具有多种形态,包括中空和多孔纳米结构,这是电催化材料所需要的特征。模板化的合成路径通常是造成这种形态的原因。本文综述了模板法合成tmp基OER和HER催化剂的最新进展和存在的挑战。综述了不同模板制备的tmp基HER和OER催化剂的结构性能。根据应用进行讨论,首先由HER进行讨论,并进一步划分使用的模板类型-从硬模板,牺牲模板和软模板到新兴的动态氢泡模板。然后对OER催化剂进行审查,并根据其形态进行分组。最后,展望了空心多孔TMPs催化剂合成的未来研究方向,如提高TMPs的活性和稳定性,设计环境友好型模板和工艺,以及通过先进的材料表征技术和理论计算分析反应机理。
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2875
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