用于光催化氢气发生的 β-酮胺连接共价有机框架的研究进展

Ping Xue, Mingyuan Li, Mi Tang, Zhengbang Wang, Chengliang Wang
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引用次数: 0

摘要

β-酮酰胺共价有机框架(COFs),又称Tp-COFs,因其优异的可见光吸收性、高结晶性、超高稳定性和结构多样性,被认为是光催化剂发展史上具有里程碑意义的材料。近年来,大量基于分子或复合工程策略的 Tp-COFs 及其复合材料被成功构建,并表现出卓越的光催化水分离活性。与复合策略相比,分子工程技术通过在分子水平上设计和制备框架,有效地避免了界面问题。因此,有必要及时总结基于分子工程策略的 Tp-COF 光催化剂的构建,为后续高性能 Tp-COF 的开发提供一定的理论依据和启示。最后,介绍了该技术存在的不足和面临的挑战,以及个人对 Tp-COFs 进一步发展的看法。
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Research Progress of β-Ketoenamine-Linked Covalent Organic Frameworks for Photocatalytic Hydrogen Evolution

β-Ketoamide covalent organic frameworks (COFs), also named Tp-COFs, are considered to be a milestone material in the history of photocatalysts because of their excellent visible-light absorption, high crystallinity, ultra-high stability and structural diversity. In recent years, a large number of Tp-COFs and their composites have been successfully constructed based on molecular or composite engineering strategies, and exhibited splendid photocatalytic water splitting activity. In comparison with a composite strategy, the molecular engineering technique effectively avoids interface problems by designing and preparing frameworks at the molecular level. Therefore, it is necessary to timely summarize the construction of Tp-COF photocatalysts based on the molecular engineering strategy, so as to provide some theoretical basis and enlightenment for the subsequent development of high-performance Tp-COFs. Finally, the shortcomings and challenges of this technique and personal views on the further development of Tp-COFs are presented.

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