Building a Charge Transfer Bridge between g-C3N4 and Perovskite with Molecular Engineering to Achieve Efficient Perovskite Solar Cells

被引:1
作者
Wang, Yingjie [1 ,2 ]
Zou, Jinhang [2 ]
Zhao, Congyu [2 ]
Jiang, Haipeng [3 ]
Song, Yuhuan [1 ,2 ]
Zhang, Le [1 ,2 ]
Li, Xin [1 ,2 ]
Wang, Fengyou [1 ,2 ]
Fan, Lin [1 ,2 ]
Liu, Xiaoyan [1 ,2 ]
Wei, Maobin [1 ,2 ]
Yang, Lili [1 ,2 ]
机构
[1] Jilin Normal Univ, Key Lab Funct Mat Phys & Chem, Minist Educ, Changchun 130013, Peoples R China
[2] Jilin Normal Univ, Natl Demonstrat Ctr Expt Phys Educ, Siping 136000, Peoples R China
[3] Jiangsu Univ, Inst Adv Mat, Sch Mat Sci & Engn, Zhenjiang 212013, Peoples R China
来源
ACS APPLIED MATERIALS & INTERFACES | 2024年 / 16卷 / 11期
关键词
perovskite solar cells; additive engineering; g-C3N4; nanosheets; charge transfer; photovoltaic performance; GRAPHITIC CARBON NITRIDE; DEFECT PASSIVATION; PERFORMANCE; CATION; NANOCOMPOSITES; NANOSHEETS; GRAPHENE;
D O I
10.1021/acsami.3c19475
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
Effective defect passivation and efficient charge transfer within polycrystalline perovskite grains and corresponding boundaries are necessary to achieve highly efficient perovskite solar cells (PSCs). Herein, focusing on the boundary location of g-C3N4 during the crystallization modulation on perovskite, molecular engineering of 4-carboxyl-3-fluorophenylboronic acid (BF) on g-C3N4 was designed to obtain a novel additive named BFCN. With the help of the strong bonding ability of BF with both g-C3N4 and perovskite and favorable intramolecular charge transfer within BFCN, not only has the crystal quality of perovskite films been improved due to the effective defects passivation, but the charge transfer has also been greatly accelerated due to the formation of additional charge transfer channels on the grain boundaries. As a result, the champion BFCN-based PSCs achieve the highest photoelectric conversion efficiency (PCE) of 23.71% with good stability.
引用
收藏
页码:13815 / 13827
页数:13
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