摘要
传统材料科学的“试错式”研究方法日益成为限制现代材料工业发展与突破的瓶颈,而材料基因组技术作为材料科学研究的革新技术,可以加速新材料的研发和应用,缩减研究成本和周期,成为当下研究的热点。本文围绕材料基因组技术,介绍了高通量实验、高通量计算与材料数据库三大要素的主要内容和典型研究范例。重点梳理了材料基因组技术在集成电路领域的研究进展,指出了集成电路材料研发的复杂性和广阔的可优化空间,提出了要结合材料基因组技术加速集成电路材料的创新,促进未来集成电路材料领域的发展。
Traditional materials research relaying on trial and error has increasingly become the bottleneck for the development and breakthroughs of modern materials industry.Innovative materials genome technology has become a hotspot in materials science research due to it can shorten the cycle of new materials development and reduce research costs.This paper mainly introduces three parts of materials genome technology:high-throughput calculation,high-throughput experimentation,material database.Some representative works are also mentioned.Then the materials genome researches in the field of integrated circuits(IC)are reviewed.In addition,the complexity and optimize ability of the IC materials genome research are pointed out,and we recommend accelerating the innovation and development of integrated circuit materials by using materials genome technology.
作者
孔维悦
林紫威
李鑫
黄琪
朱雷
KONG Wei-yue;LIN Zi-wei;LI Xin;HUANG Qi;ZHU Lei(State Key Laboratory of Information Functional Materials,Shanghai Institute of Microsystems and Information Technology,Chinese Academy of Sciences,Shanghai 200050,China;Shanghai Institute of IC Materials,Shanghai 200050,China)
出处
《功能材料与器件学报》
CAS
2022年第4期356-370,共15页
Journal of Functional Materials and Devices
基金
国家重点研发计划项目(2020YFB0704502)
关键词
材料基因组
高通量实验
高通量计算
材料数据库
集成电路材料
Materials Genome
High-throughput Experimentation
High-throughput Computing
Material Database
Integrated Circuits Materials
