Direct Band Gap Mixed-Valence Organic-inorganic Gold Perovskite as Visible Light Absorbers

Biplab Ghosh; Benny Febriansyah; Padinhare Cholakkal Harikesh; Teck Ming Koh; Shreyash Hadke; Lydia H. Wong; Jason England; Subodh G. Mhaisalkar; Nripan Mathews

doi:10.1021/acs.chemmater.0c00345

Direct Band Gap Mixed-Valence Organic-inorganic Gold Perovskite as Visible Light Absorbers

Biplab Ghosh, Benny Febriansyah, Padinhare Cholakkal Harikesh, Teck Ming Koh, Shreyash Hadke, Lydia H. Wong, Jason England, Subodh G. Mhaisalkar, Nripan Mathews^*

^*Corresponding author for this work

Nanyang Technological University

Research output: Contribution to journal › Article › peer-review

37 Citations (Scopus)

Abstract

Lead-free halide perovskite semiconductors are necessary due to the atmospheric instability and lead toxicity associated with the 3D lead halide perovskites. However, a stable lead-free perovskite with an ideal band gap (1.2-1.4 eV) for photovoltaics is still missing. In this work, we synthesized organic-inorganic gold halide double perovskites ((CH3NH3)2Au2X6, X = Br, I) through a solution-processed route that offers an ideal direct band gap for photovoltaic applications. Density functional theory calculations confirm the direct nature of the band gap with reasonable absorption coefficients in the visible range and excellent charge transport properties. In addition, the Au-halide perovskites show high chemical stability and photoresponse. These combined properties demonstrate that Au-based halide perovskites can be a promising group of compounds for optoelectronic applications.

Original language	English
Pages (from-to)	6318-6325
Number of pages	8
Journal	Chemistry of Materials
Volume	32
Issue number	15
DOIs	https://doi.org/10.1021/acs.chemmater.0c00345
Publication status	Published - Aug 11 2020
Externally published	Yes

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Publisher Copyright:
Copyright © 2020 American Chemical Society.

ASJC Scopus Subject Areas

General Chemistry
General Chemical Engineering
Materials Chemistry

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title = "Direct Band Gap Mixed-Valence Organic-inorganic Gold Perovskite as Visible Light Absorbers",

abstract = "Lead-free halide perovskite semiconductors are necessary due to the atmospheric instability and lead toxicity associated with the 3D lead halide perovskites. However, a stable lead-free perovskite with an ideal band gap (1.2-1.4 eV) for photovoltaics is still missing. In this work, we synthesized organic-inorganic gold halide double perovskites ((CH3NH3)2Au2X6, X = Br, I) through a solution-processed route that offers an ideal direct band gap for photovoltaic applications. Density functional theory calculations confirm the direct nature of the band gap with reasonable absorption coefficients in the visible range and excellent charge transport properties. In addition, the Au-halide perovskites show high chemical stability and photoresponse. These combined properties demonstrate that Au-based halide perovskites can be a promising group of compounds for optoelectronic applications.",

author = "Biplab Ghosh and Benny Febriansyah and Harikesh, \{Padinhare Cholakkal\} and Koh, \{Teck Ming\} and Shreyash Hadke and Wong, \{Lydia H.\} and Jason England and Mhaisalkar, \{Subodh G.\} and Nripan Mathews",

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year = "2020",

month = aug,

day = "11",

doi = "10.1021/acs.chemmater.0c00345",

language = "English",

volume = "32",

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AU - Ghosh, Biplab

AU - Febriansyah, Benny

AU - Harikesh, Padinhare Cholakkal

AU - Koh, Teck Ming

AU - Hadke, Shreyash

AU - Wong, Lydia H.

AU - England, Jason

AU - Mhaisalkar, Subodh G.

AU - Mathews, Nripan

PY - 2020/8/11

Y1 - 2020/8/11

N2 - Lead-free halide perovskite semiconductors are necessary due to the atmospheric instability and lead toxicity associated with the 3D lead halide perovskites. However, a stable lead-free perovskite with an ideal band gap (1.2-1.4 eV) for photovoltaics is still missing. In this work, we synthesized organic-inorganic gold halide double perovskites ((CH3NH3)2Au2X6, X = Br, I) through a solution-processed route that offers an ideal direct band gap for photovoltaic applications. Density functional theory calculations confirm the direct nature of the band gap with reasonable absorption coefficients in the visible range and excellent charge transport properties. In addition, the Au-halide perovskites show high chemical stability and photoresponse. These combined properties demonstrate that Au-based halide perovskites can be a promising group of compounds for optoelectronic applications.

AB - Lead-free halide perovskite semiconductors are necessary due to the atmospheric instability and lead toxicity associated with the 3D lead halide perovskites. However, a stable lead-free perovskite with an ideal band gap (1.2-1.4 eV) for photovoltaics is still missing. In this work, we synthesized organic-inorganic gold halide double perovskites ((CH3NH3)2Au2X6, X = Br, I) through a solution-processed route that offers an ideal direct band gap for photovoltaic applications. Density functional theory calculations confirm the direct nature of the band gap with reasonable absorption coefficients in the visible range and excellent charge transport properties. In addition, the Au-halide perovskites show high chemical stability and photoresponse. These combined properties demonstrate that Au-based halide perovskites can be a promising group of compounds for optoelectronic applications.

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Direct Band Gap Mixed-Valence Organic-inorganic Gold Perovskite as Visible Light Absorbers

Abstract

Bibliographical note

ASJC Scopus Subject Areas

UN SDGs

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