Emerging 2D Materials for Electrocatalytic Applications: Synthesis, Multifaceted Nanostructures, and Catalytic Center Design

纳米技术 电催化剂 合理设计 纳米材料 材料科学 纳米结构 石墨烯 催化作用 杂原子 化学 电化学 电极 生物化学 物理化学 有机化学 戒指(化学)
作者
Xizheng Wu,Sutong Xiao,Yanping Long,Tian Ma,Wenjie Shao,Sujiao Cao,Xi Xiang,Lang Ma,Li Qiu,Chong Cheng,Changsheng Zhao
出处
期刊:Small [Wiley]
卷期号:18 (17): e2105831-e2105831 被引量:60
标识
DOI:10.1002/smll.202105831
摘要

Abstract Currently, the development of advanced 2D nanomaterials has become an interdisciplinary subject with extensive studies due to their extraordinary physicochemical performances. Beyond graphene, the emerging 2D‐material‐derived electrocatalysts (2D‐ECs) have aroused great attention as one of the best candidates for heterogeneous electrocatalysis. The tunable physicochemical compositions and characteristics of 2D‐ECs enable rational structural engineering at the molecular/atomic levels to meet the requirements of different catalytic applications. Due to the lack of instructive and comprehensive reviews, here, the most recent advances in the nanostructure and catalytic center design and the corresponding structure–function relationships of emerging 2D‐ECs are systematically summarized. First, the synthetic pathways and state‐of‐the‐art strategies in the multifaceted structural engineering and catalytic center design of 2D‐ECs to promote their electrocatalytic activities, such as size and thickness, phase and strain engineering, heterojunctions, heteroatom doping, and defect engineering, are emphasized. Then, the representative applications of 2D‐ECs in electrocatalytic fields are depicted and summarized in detail. Finally, the current breakthroughs and primary challenges are highlighted and future directions to guide the perspectives for developing 2D‐ECs as highly efficient electrocatalytic nanoplatforms are clarified. This review provides a comprehensive understanding to engineer 2D‐ECs and may inspire many novel attempts and new catalytic applications across broad fields.
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