Revolutionizing the structural design and determination of covalent-organic frameworks: principles, methods, and techniques.
Yikuan LiuXiaona LiuAn SuChengtao GongShenwei ChenLiwei XiaChengwei ZhangXiaohuan TaoYue LiYonghe LiTulai SunMengru BuWei ShaoJia ZhaoXiaonian LiYongwu PengPeng GuoYu HanYihan ZhuPublished in: Chemical Society reviews (2024)
Covalent organic frameworks (COFs) represent an important class of crystalline porous materials with designable structures and functions. The interconnected organic monomers, featuring pre-designed symmetries and connectivities, dictate the structures of COFs, endowing them with high thermal and chemical stability, large surface area, and tunable micropores. Furthermore, by utilizing pre-functionalization or post-synthetic functionalization strategies, COFs can acquire multifunctionalities, leading to their versatile applications in gas separation/storage, catalysis, and optoelectronic devices. Our review provides a comprehensive account of the latest advancements in the principles, methods, and techniques for structural design and determination of COFs. These cutting-edge approaches enable the rational design and precise elucidation of COF structures, addressing fundamental physicochemical challenges associated with host-guest interactions, topological transformations, network interpenetration, and defect-mediated catalysis.