The Most Comprehensive Database of Ionic Transport Characteristics to Date
来源期刊:材料导报2020年第20期
论文作者:何冰 米鹏辉 张力文 CHI Shuting YE Anjiang SHI Siqi
文章页码:20001 - 20002
摘 要:<正>Transport characteristics of ionic conductors play a key role in the performance of electrochemical devices[1-2]. Any optimization of the performance of the ionic compounds is inseparable from the understanding of the basic transport characteristics. It has been previously established that ion transport properties are defined by framework transport channel geometry,e.g. bottleneck size,and resulting migration energy[3-4]. However,due to the complexity of source,the data are scattered and unavailable in consistent easily retrievable format. Besides,most MGI (Materials Genome Initiative) platforms concentrate on materials properties including formation energy,band gap,band structure,elastic constant,etc.,
何冰1,米鹏辉1,张力文2,CHI Shuting1,YE Anjiang1,SHI Siqi2,3
1. School of Computer Engineering and Science,Shanghai University2. State Key Laboratory of Advanced Special Steel,School of Materials Science and Engineering,Shanghai University3. Materials Genome Institute,Shanghai University
摘 要:<正>Transport characteristics of ionic conductors play a key role in the performance of electrochemical devices[1-2]. Any optimization of the performance of the ionic compounds is inseparable from the understanding of the basic transport characteristics. It has been previously established that ion transport properties are defined by framework transport channel geometry,e.g. bottleneck size,and resulting migration energy[3-4]. However,due to the complexity of source,the data are scattered and unavailable in consistent easily retrievable format. Besides,most MGI (Materials Genome Initiative) platforms concentrate on materials properties including formation energy,band gap,band structure,elastic constant,etc.,
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