The"modular"structural features of metal-organic frameworks(MOFs),that is,inorganic nodes and organic ligands that are used as building blocks and assembled according to a certain topology,endow MOFs with an almost unlimited number of varieties.Although thousands of MOFs are synthesized every year,the tradi-tional trial-and-error approach is more like"finding a needle in a haystack",which can no longer meet the current demand for high-performance MOFs.Materials genome engineering(MGE),which is borrowed from genome engineering in biology,is function-oriented,computation-and data-driven,and reveals the relationship between material structures and properties[1].Also,it is used as a guideline for material synthesis to obtain new mate-rials with specific properties.As a promising approach for the research and development(R&D)of high-performance MOFs,MGE aims at finding the optimal solution for the entire material space,breaking the"local optimal performance"trap which tradi-tional experimental trial-and-error methods often fall into(Fig.1a),and thus,greatly facilitating the applications of MOFs in many fields such as catalysis[2]and gas storage[3].

Xiangdong Xue;Xiubing Huang;Ge Wang

Advanced Innovation Center for Materials Genome Engineering,School of Materials Science and Engineering,University of Science and Technology Beijing,Beijing 100083,China;Shunde Graduate School,University of Science and Technology Beijing,Shunde 528399,China

科学通报（英文版）

[1]Xiangdong Xue;Xiubing Huang;Ge Wang-.Materials genome engineering:a promising approach for the development of high-performance metal-organic frameworks)[J].科学通报（英文版）,2022(12):1197-1200

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