Design of p-type transparent conducting oxides Sn2GeO4 by an ab initio evolutionary structure search

Jun Yu; Junjie Wang; Mukesh Kumar; Naoto Umezawa; Hideki Abe

doi:10.1039/c8tc04024a

Design of p-type transparent conducting oxides Sn₂GeO₄ by an ab initio evolutionary structure search

Jun Yu, Junjie Wang, Mukesh Kumar, Naoto Umezawa, Hideki Abe

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

10 Scopus citations

Abstract

In contrast to n-type transparent conducting oxides (TCOs), very few p-type TCOs have been discovered to date. In this work, we predicted two new tin-germanate-based compounds (Sn₂GeO₄) as potential p-type TCOs with exceptionally low hole effective masses and wide band gap energies. Through detailed electronic structure calculations, we revealed that the Sn₂GeO₄ compounds possess sufficiently wide band gaps (3.24 eV) for transparency, and very small effective masses (0.46) for hole carriers due to the influence of divalent Ge²⁺. Our study shows the potential for band engineering of Sn²⁺ and Ge²⁺ cations with (n - 1)d¹⁰ns² electronic configurations as p-type TCOs; this could expand the materials family for the future design and development of p-type TCOs.

Original language	English
Pages (from-to)	11202-11208
Number of pages	7
Journal	Journal of Materials Chemistry C
Volume	6
Issue number	41
DOIs	https://doi.org/10.1039/c8tc04024a
State	Published - 2018
Externally published	Yes

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title = "Design of p-type transparent conducting oxides Sn2GeO4 by an ab initio evolutionary structure search",

abstract = "In contrast to n-type transparent conducting oxides (TCOs), very few p-type TCOs have been discovered to date. In this work, we predicted two new tin-germanate-based compounds (Sn2GeO4) as potential p-type TCOs with exceptionally low hole effective masses and wide band gap energies. Through detailed electronic structure calculations, we revealed that the Sn2GeO4 compounds possess sufficiently wide band gaps (3.24 eV) for transparency, and very small effective masses (0.46) for hole carriers due to the influence of divalent Ge2+. Our study shows the potential for band engineering of Sn2+ and Ge2+ cations with (n - 1)d10ns2 electronic configurations as p-type TCOs; this could expand the materials family for the future design and development of p-type TCOs.",

author = "Jun Yu and Junjie Wang and Mukesh Kumar and Naoto Umezawa and Hideki Abe",

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T1 - Design of p-type transparent conducting oxides Sn2GeO4 by an ab initio evolutionary structure search

AU - Yu, Jun

AU - Wang, Junjie

AU - Kumar, Mukesh

AU - Umezawa, Naoto

AU - Abe, Hideki

N1 - Publisher Copyright: © The Royal Society of Chemistry 2018.

PY - 2018

Y1 - 2018

N2 - In contrast to n-type transparent conducting oxides (TCOs), very few p-type TCOs have been discovered to date. In this work, we predicted two new tin-germanate-based compounds (Sn2GeO4) as potential p-type TCOs with exceptionally low hole effective masses and wide band gap energies. Through detailed electronic structure calculations, we revealed that the Sn2GeO4 compounds possess sufficiently wide band gaps (3.24 eV) for transparency, and very small effective masses (0.46) for hole carriers due to the influence of divalent Ge2+. Our study shows the potential for band engineering of Sn2+ and Ge2+ cations with (n - 1)d10ns2 electronic configurations as p-type TCOs; this could expand the materials family for the future design and development of p-type TCOs.

AB - In contrast to n-type transparent conducting oxides (TCOs), very few p-type TCOs have been discovered to date. In this work, we predicted two new tin-germanate-based compounds (Sn2GeO4) as potential p-type TCOs with exceptionally low hole effective masses and wide band gap energies. Through detailed electronic structure calculations, we revealed that the Sn2GeO4 compounds possess sufficiently wide band gaps (3.24 eV) for transparency, and very small effective masses (0.46) for hole carriers due to the influence of divalent Ge2+. Our study shows the potential for band engineering of Sn2+ and Ge2+ cations with (n - 1)d10ns2 electronic configurations as p-type TCOs; this could expand the materials family for the future design and development of p-type TCOs.

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Design of p-type transparent conducting oxides Sn₂GeO₄ by an ab initio evolutionary structure search

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