空位缺陷
材料科学
碘
群(周期表)
链条(单位)
碳纤维
曲面(拓扑)
结晶学
复合材料
化学
物理
冶金
几何学
有机化学
数学
量子力学
复合数
作者
Muhammad Tahir,Xiangxiang Feng,Y. P. Li,Jinhao Gao,Fawad Aslam,Muhammad Zahid,Muhammad Nasir Rafiq,Hengyue Li,Biao Liu,Junliang Yang
出处
期刊:Physica Scripta
[IOP Publishing]
日期:2025-08-27
卷期号:100 (9): 095923-095923
标识
DOI:10.1088/1402-4896/adffc2
摘要
Abstract Cesium lead iodide (CsPbI 3 ) has attracted significant attention as a promising material for solar photovoltaic applications, owing to its excellent stability. In this study, five carboxylate ions like carboxylic acid (HCOO − ), acetic acid (CH 3 COO − ), propanoic acid (CH 3 CH 2 COO − ), butanoic acid (CH 3 CH 2 CH 2 COO − ), and benzoic acid (C 6 H 6 COO − ) with different carbon chain lengths are used to modify the PbI 2 and CsI surfaces of CsPbI 3 perovskite. The iodine vacancy defects are designed at the perovskite surface. The results reveal that the PbI 2 -terminated surface exhibits greater stability than the CsI-terminated surface. The long-chain molecules such as benzoic acid, butanoic acid, and propanoic acid contribute to defect reduction in CsPbI 3 and make a strong covalent bond. Structural stability was also examined, and electron–phonon coupling was analyzed via vibrational frequency calculations. Among these carboxylate ions, long-chain carboxylate ions exhibit a better passivation effect on iodine vacancy defects. This effect can be confirmed to their projected density of states (PDOS), high negative formation energy, negative grand surface energy, and higher work function. It is observed that the light absorption coefficient of the perovskite degrade with increasing carbon chain length due to wide band gap. In conclusion, these results demonstrate that carboxylate ions with longer carbon chain lengths have a better effect on the electronic and optical properties of CsPbI 3 .
科研通智能强力驱动
Strongly Powered by AbleSci AI