金属有机框架作为设计功能分子材料的可调平台。
Metal-organic frameworks as a tunable platform for designing functional molecular materials.
作者信息
Wang Cheng, Liu Demin, Lin Wenbin
机构信息
Department of Chemistry, University of Chicago , 929 E. 57th Street, Chicago, Illinois 60637, United States.
出版信息
J Am Chem Soc. 2013 Sep 11;135(36):13222-34. doi: 10.1021/ja308229p. Epub 2013 Aug 28.
Abstract
Metal-organic frameworks (MOFs), also known as coordination polymers, represent an interesting class of crystalline molecular materials that are synthesized by combining metal-connecting points and bridging ligands. The modular nature of and mild conditions for MOF synthesis have permitted the rational structural design of numerous MOFs and the incorporation of various functionalities via constituent building blocks. The resulting designer MOFs have shown promise for applications in a number of areas, including gas storage/separation, nonlinear optics/ferroelectricity, catalysis, energy conversion/storage, chemical sensing, biomedical imaging, and drug delivery. The structure-property relationships of MOFs can also be readily established by taking advantage of the knowledge of their detailed atomic structures, which enables fine-tuning of their functionalities for desired applications. Through the combination of molecular synthesis and crystal engineering, MOFs thus present an unprecedented opportunity for the rational and precise design of functional materials.
摘要
金属有机框架材料(MOFs),也被称为配位聚合物,是一类有趣的晶体分子材料,它通过将金属连接点和桥连配体结合而合成。MOF合成的模块化性质以及温和条件使得众多MOF能够进行合理的结构设计,并通过组成构建块引入各种功能。由此产生的定制MOF已在许多领域展现出应用前景,包括气体存储/分离、非线性光学/铁电性、催化、能量转换/存储、化学传感、生物医学成像和药物递送。利用MOF详细的原子结构知识,还可以轻松建立其结构-性能关系,从而能够针对所需应用对其功能进行微调。通过分子合成和晶体工程的结合,MOF因此为功能材料的合理精确设计提供了前所未有的机会。
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