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题名

Simple and robust phenoxazine phosphonic acid molecules as self-assembled hole selective contacts for high-performance inverted perovskite solar cells

作者
通讯作者He,Zhubing
发表日期
2022-12-19
DOI
发表期刊
ISSN
2040-3364
EISSN
2040-3372
卷号15期号:4页码:1676-1686
摘要
For inverted perovskite solar cells (PSCs), the interfacial defects and mismatched energy levels between the perovskite absorber and charge-selective layer restrain the further improvement of photovoltaic performance. Interfacial modification is a powerful tool for defect passivation and energy level turning by developing new charge-selective materials. Herein, we report three new molecules, 2BrCzPA, 2BrPTZPA, and 2BrPXZPA as self-assembled hole selective contacts (SA-HSCs) by an economical and efficient synthetic procedure. Benefiting from the stronger electron-donating ability of phenothiazine and phenoxazine compared to that of carbazole, 2BrPTZPA and 2BrPXZPA showed more matched energy levels and decreased energy loss. In addition, the ITO substrate coated with 2BrPTZPA and 2BrPXZPA could induce higher-quality perovskite crystal growth without obvious grain boundaries in the vertical direction. Consequently, the corresponding inverted PSCs with decreased trap state density achieved high power convention efficiencies (PCEs) of 22.06% and 22.93% (certified 22.38%) for 2BrPTZPA and 2BrPXZPA, respectively. Furthermore, the 2BrPXZPA-based device with encapsulation retained 97% of the initial efficiency after 600 h of maximum power point tracking under one sun continuous illumination. Finally, 2BrPXZPA was also used for the surface modification of NiO, and the inverted PSC based on the NiO/2BrPXZPA bilayer achieved a higher PCE of 23.66% with an open circuit voltage of 1.21 V. This work extends the design strategy of SA-HSCs for efficient and stable inverted PSCs and promotes the commercialization process.
相关链接[Scopus记录]
收录类别
语种
英语
学校署名
第一 ; 通讯
资助项目
National Natural Science Foundation of China (NSFC)["U2001216","52273266"] ; Shenzhen Key Laboratory Project from the Science, Technology, and Innovation Commission of Shenzhen Municipality[ZDSYS201602261933302]
WOS研究方向
Chemistry ; Science & Technology - Other Topics ; Materials Science ; Physics
WOS类目
Chemistry, Multidisciplinary ; Nanoscience & Nanotechnology ; Materials Science, Multidisciplinary ; Physics, Applied
WOS记录号
WOS:000907626900001
出版者
Scopus记录号
2-s2.0-85146191709
来源库
Scopus
引用统计
被引频次[WOS]:16
成果类型期刊论文
条目标识符//www.snoollab.com/handle/2SGJ60CL/560323
专题工学院_材料科学与工程系
作者单位
Department of Materials Science and Engineering,Institute of Innovative Materials (I2M),Shenzhen Key Laboratory of Full Spectral Solar Electricity Generation (FSSEG),Southern University of Science and Technology,Shenzhen,No. 1088, Xueyuan Rd, Guangdong,518055,China
第一作者单位材料科学与工程系
通讯作者单位材料科学与工程系
第一作者的第一单位材料科学与工程系
推荐引用方式
GB/T 7714
Li,Zhaoning,Tan,Qin,Chen,Guocong,et al. Simple and robust phenoxazine phosphonic acid molecules as self-assembled hole selective contacts for high-performance inverted perovskite solar cells[J]. Nanoscale,2022,15(4):1676-1686.
APA
Li,Zhaoning.,Tan,Qin.,Chen,Guocong.,Gao,Han.,Wang,Jiafeng.,...&He,Zhubing.(2022).Simple and robust phenoxazine phosphonic acid molecules as self-assembled hole selective contacts for high-performance inverted perovskite solar cells.Nanoscale,15(4),1676-1686.
MLA
Li,Zhaoning,et al."Simple and robust phenoxazine phosphonic acid molecules as self-assembled hole selective contacts for high-performance inverted perovskite solar cells".Nanoscale 15.4(2022):1676-1686.
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