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Ba-induced phase segregation and band gap reduction in mixed-halide inorganic perovskite solar cells

by Xiang, Wanchun , Zhang, Jiahuan , Hagfeldt, Anders , Wang, Zaiwei , Grätzel, Michael , Zhang, Lijun , Emsley, Lyndon , Kubicki, Dominik J. , Luo, Jingshan , Wang, Xueting , Tress, Wolfgang , Hofstetter, Albert

in 147/135 / 639/301 / 639/301/299 / 639/301/299/946 / Barium / Electroluminescence / Energy conversion efficiency / Energy gap / Humanities and Social Sciences / Iodides / Metal halides / multidisciplinary / Open circuit voltage / Perovskites / Photovoltaic cells / Quantum efficiency / Radiative recombination / Recombination / Reduction / Science / Science (multidisciplinary) / Solar cells / Stoichiometry

2019

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Ba-induced phase segregation and band gap reduction in mixed-halide inorganic perovskite solar cells

2019

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Ba-induced phase segregation and band gap reduction in mixed-halide inorganic perovskite solar cells

2019

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Journal Article

Ba-induced phase segregation and band gap reduction in mixed-halide inorganic perovskite solar cells

Xiang, Wanchun,

Zhang, Jiahuan,

Hagfeldt, Anders,

Wang, Zaiwei,

Grätzel, Michael,

Zhang, Lijun,

Emsley, Lyndon,

Kubicki, Dominik J.,

Luo, Jingshan,

Wang, Xueting,

Tress, Wolfgang,

Hofstetter, Albert

2019

Overview

All-inorganic metal halide perovskites are showing promising development towards efficient long-term stable materials and solar cells. Element doping, especially on the lead site, has been proved to be a useful strategy to obtain the desired film quality and material phase for high efficient and stable inorganic perovskite solar cells. Here we demonstrate a function by adding barium in CsPbI 2 Br. We find that barium is not incorporated into the perovskite lattice but induces phase segregation, resulting in a change in the iodide/bromide ratio compared with the precursor stoichiometry and consequently a reduction in the band gap energy of the perovskite phase. The device with 20 mol% barium shows a high power conversion efficiency of 14.0% and a great suppression of non-radiative recombination within the inorganic perovskite, yielding a high open-circuit voltage of 1.33 V and an external quantum efficiency of electroluminescence of 10 −4 . Element doping has been proven a useful strategy to tune the properties of halide perovskites. Here Xiang et al. show that barium unexpectedly does not incorporate in perovskite lattice but induces phase segregation and bandgap reduction and inhibits non-radiative recombination.

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

147/135

/ 639/301

/ 639/301/299

/ 639/301/299/946

/ Barium

/ Electroluminescence

/ Energy conversion efficiency