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作 者:关洪达 李才巨[1] 高鹏[1] 彭巨擘 李芳[1] 鲍庆煌 关一凡 易健宏[1] Guan Hongda;Li Caiju;Gao Peng;Peng Jubo;Li Fang;Bao Qinghuang;Guan Yifan;Yi Jianhong(Kunming University of Science and Technology,Kunming 650093,China;Yunnan Tin Group(Holding)Company Limited,Kunming 650106,China)
机构地区:[1]昆明理工大学,云南昆明650093 [2]云南锡业集团(控股)有限责任公司,云南昆明650106
出 处:《稀有金属材料与工程》2019年第12期4131-4140,共10页Rare Metal Materials and Engineering
基 金:云南省稀贵金属材料基因工程重大科技专项(2018ZE007,2018ZE024);云南省大学生创新创业训练计划项目(201810672006);昆明理工大学学生课外学术科技创新基金课题(2018BA091)
摘 要:材料基因组工程理念的提出,引起了国内外材料领域研究人员的广泛关注。作为材料基因工程的重要组成部分,材料高通量制备与表征技术成为研究的重点。采用高通量制备和高通量表征分析技术能显著提高材料的研发速度。本文简述了材料基因工程的相关理念,介绍了一系列具有代表性的材料高通量制备与表征技术,综述了其研究进展,并讨论了其发展趋势,以期为发展高通量制备与表征技术提供新思路,为进一步发展材料基因工程技术提供参考。The concept of material genome engineering has attracted extensive attention from researchers in the field of materials at home and abroad. As an important part of material genome engineering, high-throughput material synthesis and characterization technology become the focus of research, which can significantly improve the speed of materials research and development. In this work, the related concepts of material genome engineering are briefly introduced. A series of representative high-throughput synthesis and characterization techniques are introduced, and the research progresses in this field are reviewed. The main developing trend of high-throughput material synthesis and characterization technology is discussed in order to provide new ideas for the development of this field, as well as providing references for further development of material genome engineering technology.
分 类 号:TB30[一般工业技术—材料科学与工程]
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