纳米材料
材料科学
纳米技术
硫系化合物
合理设计
相(物质)
催化作用
金属间化合物
石墨烯
无定形固体
能量转换
电催化剂
分解水
储能
设计要素和原则
作者
Qing Yao,Zhiyong Yu,Na Chen,Xiaoqing Huang
标识
DOI:10.1002/adma.202523625
摘要
Ru-based nanomaterials are highly promising catalysts for energy storage and conversion due to their high intrinsic activity and cost-effectiveness among platinum-group metals. Phase tailoring, which directly controls the atomic arrangement, has emerged as a powerful strategy for precisely tailoring their physicochemical properties. This review provides a comprehensive overview of recent advances in phase tailoring of Ru-based nanomaterials. It starts with cataloging the newly developed phases of Ru-based nanomaterials from unconventional crystalline and amorphous structures to intermetallic and chalcogenide compounds, and discusses their synthetic principles from the thermodynamic and kinetic perspectives. We then summarize the representative synthetic methodologies that enable these novel phases and highlight the resulting Ru-based nanomaterials with novel phases. Furthermore, we review their electrocatalytic applications in water splitting and fuel cells, with the establishment of structure-performance relationships. Finally, the review concludes by pointing out the potential challenges and presenting a perspective on future research, aiming to guide the rational design of next-generation Ru-based catalysts.
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