1 Two-Dimensional PC6 with Direct Band Gap and Anisotropic Carrier Mobility
来源:J AM CHEM SOC( P 0002-7863 E 1520-5126 ) 发表时间: 2019/01
类型:期刊论文 为本人加分:5533.064205
2 Stable and metallic two-dimensional TaC2 as an anode material for lithium-ion battery
来源:J MATER CHEM A( P 2050-7488 E 2050-7496 ) 发表时间: 2017/09
类型:期刊论文 为本人加分:3328.703497
3 Understanding the role of lithium sulfide clusters in lithium-sulfur batteries
来源:J MATER CHEM A( P 2050-7488 E 2050-7496 ) 发表时间: 2017/05
类型:期刊论文 为本人加分:2360.517355
4 Anisotropic Janus SiP2 Monolayer as a Photocatalyst for Water Splitting
来源:J PHYS CHEM LETT( P 1948-7185 E ) 发表时间: 2021/03
类型:期刊论文 为本人加分:1719.169234
5 Metallic P3C monolayer as anode for sodium-ion batteries
来源:J MATER CHEM A( P 2050-7488 E 2050-7496 ) 发表时间: 2019/01
类型:期刊论文 为本人加分:1680.107180
6 FeP3 monolayer as a high-efficiency catalyst for hydrogen evolution reaction
来源:J MATER CHEM A( P 2050-7488 E 2050-7496 ) 发表时间: 2019/11
类型:期刊论文 为本人加分:1215.107180
7 Predicted Pressure-Induced Superconducting Transition in Electride Li6P
来源:PHYS REV LETT( P 0031-9007 E 1079-7114 ) 发表时间: 2019/03
类型:期刊论文 为本人加分:396.735354
8 Anisotropic PC6N Monolayer with Wide Band Gap and Ultrahigh Carrier Mobility
来源:J PHYS CHEM C( P 1932-7447 E 1932-7455 ) 发表时间: 2020/02
类型:期刊论文 为本人加分:343.724426
9 High-Temperature Ferromagnetism in an Fe3P Monolayer with a Large Magnetic Anisotropy
来源:J PHYS CHEM LETT( P 1948-7185 E ) 发表时间: 2019/06
类型:期刊论文 为本人加分:294.300603
10 Achieving high hydrogen evolution reaction activity of a Mo2C monolayer
来源:PHYS CHEM CHEM PHYS( P 1463-9076 E 1463-9084 ) 发表时间: 2020/12
类型:期刊论文 为本人加分:238.915935