Fan Ruo-Yao, Zhang Yu-Sheng, Lv Jing-Yi, Han Guan-Qun, Chai Yong-Ming, Dong Bin
State Key Laboratory of Heavy Oil Processing, College of Chemistry and Chemical Engineering, China University of Petroleum (East China), Qingdao, 266580, P. R. China.
Department of Chemistry, University of Cincinnati, Cincinnati, Ohio, 45221, USA.
Small. 2024 Feb;20(5):e2304636. doi: 10.1002/smll.202304636. Epub 2023 Oct 3.
The development of electrocatalysts that are not reliant on iridium for efficient acid-oxygen evolution is a critical step towards the proton exchange membrane water electrolysis (PEMWE) and green hydrogen industry. Ruthenium-based electrocatalysts have garnered widespread attention due to their remarkable catalytic activity and lower commercial price. However, the challenge lies in balancing the seesaw relationship between activity and stability of these electrocatalysts during the acid-oxygen evolution reaction (OER). This review delves into the progress made in Ru-based electrocatalysts with regards to acid OER and PEMWE applications. It highlights the significance of customizing the acidic OER mechanism of Ru-based electrocatalysts through the coordination of adsorption evolution mechanism (AEM) and lattice oxygen oxidation mechanism (LOM) to attain the ideal activity and stability relationship. The promising tradeoffs between the activity and stability of different Ru-based electrocatalysts, including Ru metals and alloys, Ru single-atomic materials, Ru oxides, and derived complexes, and Ru-based heterojunctions, as well as their applicability to PEMWE systems, are discussed in detail. Furthermore, this paper offers insights on in situ control of Ru active sites, dynamic catalytic mechanism, and commercial application of PEMWE. Based on three-way relationship between cost, activity, and stability, the perspectives and development are provided.
开发不依赖铱进行高效析氧反应的电催化剂是迈向质子交换膜水电解(PEMWE)和绿色氢能产业的关键一步。钌基电催化剂因其卓越的催化活性和较低的商业价格而备受关注。然而,挑战在于如何在析氧反应(OER)过程中平衡这些电催化剂活性和稳定性之间的跷跷板关系。本文综述了钌基电催化剂在酸性析氧反应和PEMWE应用方面取得的进展。强调了通过吸附演化机制(AEM)和晶格氧氧化机制(LOM)的协同作用来定制钌基电催化剂的酸性析氧反应机理,以实现理想的活性和稳定性关系的重要性。详细讨论了不同钌基电催化剂(包括钌金属和合金、钌单原子材料、钌氧化物及其衍生配合物以及钌基异质结)在活性和稳定性之间有前景的权衡,以及它们在PEMWE系统中的适用性。此外,本文还对钌活性位点的原位控制、动态催化机理以及PEMWE的商业应用提供了见解。基于成本、活性和稳定性之间的三元关系,给出了展望和发展方向。
