异质结
从头算
从头算量子化学方法
材料科学
激发态
单层
电子能带结构
化学
分解水
吉布斯自由能
航程(航空)
吸收(声学)
氢
带隙
分子物理学
制氢
光催化分解水
光电子学
物理化学
电子
原子物理学
能量(信号处理)
电子结构
计算化学
反作用坐标
化学物理
能量载体
作者
Sun, Hao,Yang, Chuan-Lu,Li, Xiaohu,Liu, Yuliang,Zhao, Wenkai
标识
DOI:10.5281/zenodo.15247332
摘要
All DFT calculations were performed using the Vienna Ab initio Simulation Package (VASP, version 6.3.0), which is available at https://www.vasp.at/. The open-source Hefei-NAMD code, accessible at https://github.com/QijingZheng/Hefei-NAMD, was employed to simulate the nonadiabatic dynamics of excited electrons and holes. The projected band alignments between the heterostructures and their corresponding monolayers, as well as the calculations of solar-to-hydrogen (STH) efficiency and carrier mobility, were carried out using Fortran codes developed in-house. The geometric coordinate files and static calculations of 24 MA2Z4 monolayers are provided at Data/ monolayers/ opt/ and Data/ monolayers/ scf/, respectively. The DOS and band structure of 69 MA2Z4/XSe2 heterostructures are provided at Data / heterostructure/ band/. The Gibbs free energy of HER and OER (see Data/ heterostructures/ gibbs/) and energy band structure in the -4%-4% strain range (see Data/ heterostructures/ strain/) of the ZnGa2Se4/ZrSe2, ZnGa2Se4/HfSe2, CdGa2Se4/TiSe2, CdGa2Se4/ZrSe2, CdIn2Se2/TiSe2, and HgGa2Se4/ZrSe2 heterostructures (named ZZ, ZH, CGT, CZ, CIT and HZ for simplicity) are provided. The optical absorption in monolayers isolated from these 6 heterostructures are provided at Data/ heterostructures/ optical/.
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