Materials genome engineering represents the new frontier of materials research,and is disrupting the conventional“trial and error”paradigm for materials innovation.In the present perspective,the author reflects on t...Materials genome engineering represents the new frontier of materials research,and is disrupting the conventional“trial and error”paradigm for materials innovation.In the present perspective,the author reflects on the major achievements already made in five sub-domains,including high-efficiency materials computation and design,revolutionary experimental technologies,materials big data technologies,research and development of advanced materials,and industrial applications.Furthermore,the author lays out five crucial directions of future efforts for maturing the relevant technologies.These directions include cross-scale modeling and computational design,artificial intelligence for materials science,automatic and intelligent experimentation,digital twin,and data resource management and sharing.展开更多
基金supported by the major consulting project of the Chinese Academy of Engineering(No.2021-JJZD-01).
文摘Materials genome engineering represents the new frontier of materials research,and is disrupting the conventional“trial and error”paradigm for materials innovation.In the present perspective,the author reflects on the major achievements already made in five sub-domains,including high-efficiency materials computation and design,revolutionary experimental technologies,materials big data technologies,research and development of advanced materials,and industrial applications.Furthermore,the author lays out five crucial directions of future efforts for maturing the relevant technologies.These directions include cross-scale modeling and computational design,artificial intelligence for materials science,automatic and intelligent experimentation,digital twin,and data resource management and sharing.
