催化作用
Atom(片上系统)
氧原子
对偶(语法数字)
化学
氧气
组合化学
纳米技术
材料科学
计算机科学
有机化学
分子
并行计算
文学类
艺术
作者
Xinru Yan,Ning Liu,Wencai Liu,Jiajun Zeng,Cong Liu,Shufen Chen,Yuhua Yang,Xuchun Gui,Dingshan Yu,Guowei Yang,Zhiping Zeng
摘要
Covalent organic frameworks (COFs) have emerged as promising platforms for the construction of single-atom and dual-atom catalysts (SACs and DACs), owing to their well-defined structures, tunable pore sizes, and abundant active sites. In recent years, the development of COF-based SACs and DACs as highly efficient catalysts has witnessed a remarkable surge. The synergistic interplay between the metal active sites and the COF has established the design and fabrication of COF-based SACs and DACs as a prominent research area in electrocatalysis. These catalytic materials exhibit promising prospects for applications in energy storage and conversion devices. This review summarizes recent advances in the design, synthesis, and applications of COF-based SACs and DACs for oxygen catalysis. The catalytic mechanisms of the oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) are comprehensively explored, providing a comparative analysis to elucidate the correlation between the structure and performance, as well as their functional attributes in battery devices. This review highlights a promising approach for future research, emphasizing the necessity of rational design, breakthroughs, and in-situ characterization to further advance the development of high-performance COF-based SACs and DACs for sustainable energy applications.
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