Deciphering the Morphology Change and Performance Enhancement for Perovskite Solar Cells Induced by Surface Modification

Nianci Guan; Yuezhou Zhang; Wei Chen; Zhengyan Jiang; Lei Gu; Ruixue Zhu; Deependra Yadav; Deli Li; Baomin Xu; Leifeng Cao; Xingyu Gao; Yonghua Chen; Lin Song

doi:10.1002/advs.202205342

Deciphering the Morphology Change and Performance Enhancement for Perovskite Solar Cells Induced by Surface Modification

Nianci Guan
, Yuezhou Zhang
, Wei Chen
, Zhengyan Jiang
, Lei Gu
, Ruixue Zhu
, Deependra Yadav
, Deli Li
, Baomin Xu
, Leifeng Cao
, Xingyu Gao
, Yonghua Chen
, Lin Song

柔性电子研究院

Northwestern Polytechnical University Xian
Shenzhen Technology University
Southern University of Science and Technology
Åbo Akademi University
Fujian Normal University
CAS - Shanghai Advanced Research Institute
Nanjing Tech University

科研成果: 期刊稿件 › 文章 › 同行评审

25 引用（Scopus）

摘要

Organic–inorganic perovskite solar cells (PSCs) have achieved great attention due to their expressive power conversion efficiency (PCE) up to 25.7%. To improve the photovoltaic performance of PSCs, interface engineering between the perovskite and hole transport layer (HTL) is a widely used strategy. Following this concept, benzyl trimethyl ammonium chlorides (BTACls) are used to modify the wet chemical processed perovskite film in this work. The BTACl-induced low dimensional perovskite is found to have a bilayer structure, which efficiently decreases the trap density and improves the energy level alignment at the perovskite/HTL interface. As a result, the BTACl-modified PSCs show an improved PCE compared to the control devices. From device modeling, the reduced charge carrier recombination and promoted charge carrier transfer at the perovskite/HTL interface are the cause of the open-circuit (V_oc) and fill factor (FF) improvement, respectively. This study gives a deep understanding for surface modification of perovskite films from a perspective of the morphology and the function of enhancing photovoltaic performance.

源语言	英语
文章编号	2205342
期刊	Advanced Science
卷	10
期	3
DOI	https://doi.org/10.1002/advs.202205342
出版状态	已出版 - 25 1月 2023

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title = "Deciphering the Morphology Change and Performance Enhancement for Perovskite Solar Cells Induced by Surface Modification",

abstract = "Organic–inorganic perovskite solar cells (PSCs) have achieved great attention due to their expressive power conversion efficiency (PCE) up to 25.7\%. To improve the photovoltaic performance of PSCs, interface engineering between the perovskite and hole transport layer (HTL) is a widely used strategy. Following this concept, benzyl trimethyl ammonium chlorides (BTACls) are used to modify the wet chemical processed perovskite film in this work. The BTACl-induced low dimensional perovskite is found to have a bilayer structure, which efficiently decreases the trap density and improves the energy level alignment at the perovskite/HTL interface. As a result, the BTACl-modified PSCs show an improved PCE compared to the control devices. From device modeling, the reduced charge carrier recombination and promoted charge carrier transfer at the perovskite/HTL interface are the cause of the open-circuit (Voc) and fill factor (FF) improvement, respectively. This study gives a deep understanding for surface modification of perovskite films from a perspective of the morphology and the function of enhancing photovoltaic performance.",

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AU - Guan, Nianci

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AU - Chen, Wei

AU - Jiang, Zhengyan

AU - Gu, Lei

AU - Zhu, Ruixue

AU - Yadav, Deependra

AU - Li, Deli

AU - Xu, Baomin

AU - Cao, Leifeng

AU - Gao, Xingyu

AU - Chen, Yonghua

AU - Song, Lin

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N2 - Organic–inorganic perovskite solar cells (PSCs) have achieved great attention due to their expressive power conversion efficiency (PCE) up to 25.7%. To improve the photovoltaic performance of PSCs, interface engineering between the perovskite and hole transport layer (HTL) is a widely used strategy. Following this concept, benzyl trimethyl ammonium chlorides (BTACls) are used to modify the wet chemical processed perovskite film in this work. The BTACl-induced low dimensional perovskite is found to have a bilayer structure, which efficiently decreases the trap density and improves the energy level alignment at the perovskite/HTL interface. As a result, the BTACl-modified PSCs show an improved PCE compared to the control devices. From device modeling, the reduced charge carrier recombination and promoted charge carrier transfer at the perovskite/HTL interface are the cause of the open-circuit (Voc) and fill factor (FF) improvement, respectively. This study gives a deep understanding for surface modification of perovskite films from a perspective of the morphology and the function of enhancing photovoltaic performance.

AB - Organic–inorganic perovskite solar cells (PSCs) have achieved great attention due to their expressive power conversion efficiency (PCE) up to 25.7%. To improve the photovoltaic performance of PSCs, interface engineering between the perovskite and hole transport layer (HTL) is a widely used strategy. Following this concept, benzyl trimethyl ammonium chlorides (BTACls) are used to modify the wet chemical processed perovskite film in this work. The BTACl-induced low dimensional perovskite is found to have a bilayer structure, which efficiently decreases the trap density and improves the energy level alignment at the perovskite/HTL interface. As a result, the BTACl-modified PSCs show an improved PCE compared to the control devices. From device modeling, the reduced charge carrier recombination and promoted charge carrier transfer at the perovskite/HTL interface are the cause of the open-circuit (Voc) and fill factor (FF) improvement, respectively. This study gives a deep understanding for surface modification of perovskite films from a perspective of the morphology and the function of enhancing photovoltaic performance.

KW - BTACl modification

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KW - low dimensional perovskites

KW - morphology

KW - perovskite solar cells

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Deciphering the Morphology Change and Performance Enhancement for Perovskite Solar Cells Induced by Surface Modification

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