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Constructive molecular configurations for surface-defect passivation of perovskite photovoltaics

by Huang, Tianyi , Lee Yang, Jonathan , Houk, Kendall N. , Tan, Shaun , Zhao, Yepin , Wang, Minhuan , Nuryyeva, Selbi , Yang, Yang , Wang, Rui , Zhu, Jiahui , Wang, Zhao-Kui , Wang, Kai-Li , Luo, Yanqi , Yavuz, Ilhan , Xu, Guangwei , Xue, Jingjing , Fenning, David

in Amino groups / Binding / Caffeine / Carbonyl compounds / Carbonyls / Configurations / Defects / Efficiency / Energy conversion efficiency / Functional groups / Hydrogen / Hydrogen bonding / Hydrogen bonds / Iodides / Iodine / Lead / Metal halides / Optimization / Organic chemistry / Passivity / Perovskites / Photovoltaic cells / Photovoltaics / Recombination / Solar cells / SOLAR ENERGY / Surface charge / Surface defects / Theophylline

2019

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Constructive molecular configurations for surface-defect passivation of perovskite photovoltaics

2019

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Constructive molecular configurations for surface-defect passivation of perovskite photovoltaics

2019

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Journal Article

Constructive molecular configurations for surface-defect passivation of perovskite photovoltaics

Huang, Tianyi,

Lee Yang, Jonathan,

Houk, Kendall N.,

Tan, Shaun,

Zhao, Yepin,

Wang, Minhuan,

Nuryyeva, Selbi,

Yang, Yang,

Wang, Rui,

Zhu, Jiahui,

Wang, Zhao-Kui,

Wang, Kai-Li,

Luo, Yanqi,

Yavuz, Ilhan,

Xu, Guangwei,

Xue, Jingjing,

Fenning, David

2019

Overview

Surface trap–mediated nonradiative charge recombination is a major limit to achieving high-efficiency metal-halide perovskite photovoltaics. The ionic character of perovskite lattice has enabled molecular defect passivation approaches through interaction between functional groups and defects. However, a lack of in-depth understanding of how the molecular configuration influences the passivation effectiveness is a challenge to rational molecule design. Here, the chemical environment of a functional group that is activated for defect passivation was systematically investigated with theophylline, caffeine, and theobromine. When N-H and C=O were in an optimal configuration in the molecule, hydrogen-bond formation between N-H and I (iodine) assisted the primary C=O binding with the antisite Pb (lead) defect to maximize surface-defect binding. A stabilized power conversion efficiency of 22.6% of photovoltaic device was demonstrated with theophylline treatment.

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Publisher

American Association for the Advancement of Science,The American Association for the Advancement of Science,AAAS

Subject

/ Binding

/ Defects