Multi-site passivation agent for efficient tandem solar cells:Simultaneously suppressing defect recombination in NiO_(x) surface,perovskite buried interface,and silicon edge
Xinru Wang Mengqi Li Lijie Yu Bingbing Chen Mengnan Cui Haishun Gao Xueliang Yang Xuning Zhang Jianhui Chen
eScience2026,Vol.6Issue(2):P.200-210,11.
eScience2026,Vol.6Issue(2):P.200-210,11.DOI:10.1016/j.esci.2025.100471
Multi-site passivation agent for efficient tandem solar cells:Simultaneously suppressing defect recombination in NiO_(x) surface,perovskite buried interface,and silicon edge
摘要
关键词
Multi-site passivation agent/Buried interface defects/Edge surface passivation/Tandem solar cells分类
信息技术与安全科学引用本文复制引用
Xinru Wang,Mengqi Li,Lijie Yu,Bingbing Chen,Mengnan Cui,Haishun Gao,Xueliang Yang,Xuning Zhang,Jianhui Chen..Multi-site passivation agent for efficient tandem solar cells:Simultaneously suppressing defect recombination in NiO_(x) surface,perovskite buried interface,and silicon edge[J].eScience,2026,6(2):P.200-210,11.基金项目
the National Natural Science Foundation of China(62304066,62274054) (62304066,62274054)
China and Germany Postdoctoral Exchange Program(ZD2023010),Natural Science Foundation of Hebei Province(F2023201001,F2023201005) (ZD2023010)
Interdisciplinary research project of Hebei University(DXK202303) (DXK202303)
The Central Guidance on Local Science and Technology Development Fund Project of Hebei Province(No.236Z4307G,226Z4306G) (No.236Z4307G,226Z4306G)
Hebei Province Department of Education Youth Fund Project(QN 2025349). (QN 2025349)
