Pure 2D Perovskite Formation by Interfacial Engineering Yields a High Open‐Circuit Voltage beyond 1.28 V for 1.77‐eV Wide‐Bandgap Perovskite Solar Cells

Rui He; Zongjin Yi; Yi Luo; Jincheng Luo; Qi Wei; Huagui Lai; Hao Huang; Bingsuo Zou; Guangyao Cui; Wenwu Wang; Chuanxiao Xiao; Shengqiang Ren; Cong Chen; Changlei Wang; Guichuan Xing; Fan Fu; Dewei Zhao

doi:10.1002/advs.202203210

Advanced Science (Dec 2022)

Pure 2D Perovskite Formation by Interfacial Engineering Yields a High Open‐Circuit Voltage beyond 1.28 V for 1.77‐eV Wide‐Bandgap Perovskite Solar Cells

Rui He,
Zongjin Yi,
Yi Luo,
Jincheng Luo,
Qi Wei,
Huagui Lai,
Hao Huang,
Bingsuo Zou,
Guangyao Cui,
Wenwu Wang,
Chuanxiao Xiao,
Shengqiang Ren,
Cong Chen,
Changlei Wang,
Guichuan Xing,
Fan Fu,
Dewei Zhao

Affiliations

Rui He: College of Materials Science and Engineering & Institute of New Energy and Low‐Carbon Technology Engineering Research Center of Alternative Energy Materials & Devices Ministry of Education Sichuan University Chengdu 610065 P. R. China
Zongjin Yi: College of Materials Science and Engineering & Institute of New Energy and Low‐Carbon Technology Engineering Research Center of Alternative Energy Materials & Devices Ministry of Education Sichuan University Chengdu 610065 P. R. China
Yi Luo: College of Materials Science and Engineering & Institute of New Energy and Low‐Carbon Technology Engineering Research Center of Alternative Energy Materials & Devices Ministry of Education Sichuan University Chengdu 610065 P. R. China
Jincheng Luo: College of Materials Science and Engineering & Institute of New Energy and Low‐Carbon Technology Engineering Research Center of Alternative Energy Materials & Devices Ministry of Education Sichuan University Chengdu 610065 P. R. China
Qi Wei: Joint Key Laboratory of the Ministry of Education Institute of Applied Physics and Materials Engineering University of Macau Avenida da Universidade, Taipa Macau 999078 P. R. China
Huagui Lai: Laboratory for Thin Films and Photovoltaics Empa – Swiss Federal Laboratories for Materials Science and Technology Ueberlandstrasse 129 Duebendorf CH‐8600 Switzerland
Hao Huang: Guangxi Key Laboratory of Processing for Non‐ferrous Metals and Featured Materials School of Resources, Environment and Materials Guangxi University Nanning 530004 P. R. China
Bingsuo Zou: Guangxi Key Laboratory of Processing for Non‐ferrous Metals and Featured Materials School of Resources, Environment and Materials Guangxi University Nanning 530004 P. R. China
Guangyao Cui: College of Materials Science and Engineering & Institute of New Energy and Low‐Carbon Technology Engineering Research Center of Alternative Energy Materials & Devices Ministry of Education Sichuan University Chengdu 610065 P. R. China
Wenwu Wang: College of Materials Science and Engineering & Institute of New Energy and Low‐Carbon Technology Engineering Research Center of Alternative Energy Materials & Devices Ministry of Education Sichuan University Chengdu 610065 P. R. China
Chuanxiao Xiao: Ningbo Institute of Materials Technology and Engineering Chinese Academy of Sciences Ningbo New Material Testing and Evaluation Center Co., Ltd Ningbo City 315201 P. R. China
Shengqiang Ren: College of Materials Science and Engineering & Institute of New Energy and Low‐Carbon Technology Engineering Research Center of Alternative Energy Materials & Devices Ministry of Education Sichuan University Chengdu 610065 P. R. China
Cong Chen: College of Materials Science and Engineering & Institute of New Energy and Low‐Carbon Technology Engineering Research Center of Alternative Energy Materials & Devices Ministry of Education Sichuan University Chengdu 610065 P. R. China
Changlei Wang: School of Optoelectronic Science and Engineering & Collaborative Innovation Center of Suzhou Nano Science and Technology Key Lab of Advanced Optical Manufacturing Technologies of Jiangsu Province & Key Lab of Modern Optical Technologies of Education Ministry of China Soochow University Suzhou 215006 P. R. China
Guichuan Xing: Joint Key Laboratory of the Ministry of Education Institute of Applied Physics and Materials Engineering University of Macau Avenida da Universidade, Taipa Macau 999078 P. R. China
Fan Fu: Laboratory for Thin Films and Photovoltaics Empa – Swiss Federal Laboratories for Materials Science and Technology Ueberlandstrasse 129 Duebendorf CH‐8600 Switzerland
Dewei Zhao: College of Materials Science and Engineering & Institute of New Energy and Low‐Carbon Technology Engineering Research Center of Alternative Energy Materials & Devices Ministry of Education Sichuan University Chengdu 610065 P. R. China

DOI: https://doi.org/10.1002/advs.202203210
Journal volume & issue: Vol. 9, no. 36
pp. n/a – n/a

Abstract

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Abstract Surface post‐treatment using ammonium halides effectively reduces large open‐circuit voltage (VOC) losses in bromine‐rich wide‐bandgap (WBG) perovskite solar cells (PSCs). However, the underlying mechanism still remains unclear and the device efficiency lags largely behind. Here, a facile strategy of precisely tailoring the phase purity of 2D perovskites on top of 3D WBG perovskite and realizing high device efficiency is reported. The transient absorption spectra, cross‐sectional confocal photoluminescence mapping, and cross‐sectional Kelvin probe force microscopy are combined to demonstrate optimal defect passivation effect and surface electric‐field of pure n = 1 2D perovskites formed atop 3D WBG perovskites via low‐temperature annealing. As a result, the inverted champion device with 1.77‐eV perovskite absorber achieves a high VOC of 1.284 V and a power conversion efficiency (PCE) of 17.72%, delivering the smallest VOC deficit of 0.486 V among WBG PSCs with a bandgap higher than 1.75 eV. This enables one to achieve a four‐terminal all‐perovskite tandem solar cell with a PCE exceeding 25% by combining with a 1.25‐eV low‐bandgap PSC.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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