Helium incorporation induced direct-gap silicides

Helium incorporation induced direct-gap silicides

Abstract The search of direct-gap Si-based semiconductors is of great interest due to the potential application in many technologically relevant fields. This work examines the incorporation of He as a possible route to form a direct band gap in Si. Structure predictions and first-principles calculat...

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Main Authors: Shicong Ding, Jingming Shi, Jiahao Xie, Wenwen Cui, Pan Zhang, Kang Yang, Jian Hao, Lijun Zhang, Yinwei Li
Format: Article
Language:English
Published: Nature Publishing Group 2021-06-01
Series:npj Computational Materials
Online Access:https://doi.org/10.1038/s41524-021-00558-w
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spelling doaj-0b6fea9a18ad4c769b42bf3c9ded63ae2021-06-13T11:25:11ZengNature Publishing Groupnpj Computational Materials2057-39602021-06-01711810.1038/s41524-021-00558-wHelium incorporation induced direct-gap silicidesShicong Ding0Jingming Shi1Jiahao Xie2Wenwen Cui3Pan Zhang4Kang Yang5Jian Hao6Lijun Zhang7Yinwei Li8Laboratory of Quantum Functional Materials Design and Application, School of Physics and Electronic Engineering, Jiangsu Normal UniversityLaboratory of Quantum Functional Materials Design and Application, School of Physics and Electronic Engineering, Jiangsu Normal UniversityState Key Laboratory of Superhard Materials, Key Laboratory of Automobile Materials of MOE, and College of Materials Science and Engineering, Jilin UniversityLaboratory of Quantum Functional Materials Design and Application, School of Physics and Electronic Engineering, Jiangsu Normal UniversityLaboratory of Quantum Functional Materials Design and Application, School of Physics and Electronic Engineering, Jiangsu Normal UniversityLaboratory of Quantum Functional Materials Design and Application, School of Physics and Electronic Engineering, Jiangsu Normal UniversityLaboratory of Quantum Functional Materials Design and Application, School of Physics and Electronic Engineering, Jiangsu Normal UniversityState Key Laboratory of Superhard Materials, Key Laboratory of Automobile Materials of MOE, and College of Materials Science and Engineering, Jilin UniversityLaboratory of Quantum Functional Materials Design and Application, School of Physics and Electronic Engineering, Jiangsu Normal UniversityAbstract The search of direct-gap Si-based semiconductors is of great interest due to the potential application in many technologically relevant fields. This work examines the incorporation of He as a possible route to form a direct band gap in Si. Structure predictions and first-principles calculations show that He and Si, at high pressure, form four dynamically stable phases of Si2He (oP36-Si2He, tP9-Si2He, mC18-Si2He, and mC12-Si2He). All phases adopt host–guest structures consisting of a channel-like Si host framework filled with He guest atoms. The Si frameworks in oP36-Si2He, tP9-Si2He, and mC12-Si2He could be retained to ambient pressure after removal of He, forming three pure Si allotropes. Among them, oP36-Si2He and mC12-Si2He exhibit direct band gaps of 1.24 and 1.34 eV, respectively, close to the optimal value (~1.3 eV) for solar cell applications. Analysis shows that mC12-Si2He with an electric dipole transition allowed band gap possesses higher absorption capacity than cubic diamond Si, which makes it to be a promising candidate material for thin-film solar cell.https://doi.org/10.1038/s41524-021-00558-w
collection DOAJ
language English
format Article
sources DOAJ
author Shicong Ding
Jingming Shi
Jiahao Xie
Wenwen Cui
Pan Zhang
Kang Yang
Jian Hao
Lijun Zhang
Yinwei Li
spellingShingle Shicong Ding
Jingming Shi
Jiahao Xie
Wenwen Cui
Pan Zhang
Kang Yang
Jian Hao
Lijun Zhang
Yinwei Li
Helium incorporation induced direct-gap silicides
npj Computational Materials
author_facet Shicong Ding
Jingming Shi
Jiahao Xie
Wenwen Cui
Pan Zhang
Kang Yang
Jian Hao
Lijun Zhang
Yinwei Li
author_sort Shicong Ding
title Helium incorporation induced direct-gap silicides
title_short Helium incorporation induced direct-gap silicides
title_full Helium incorporation induced direct-gap silicides
title_fullStr Helium incorporation induced direct-gap silicides
title_full_unstemmed Helium incorporation induced direct-gap silicides
title_sort helium incorporation induced direct-gap silicides
publisher Nature Publishing Group
series npj Computational Materials
issn 2057-3960
publishDate 2021-06-01
description Abstract The search of direct-gap Si-based semiconductors is of great interest due to the potential application in many technologically relevant fields. This work examines the incorporation of He as a possible route to form a direct band gap in Si. Structure predictions and first-principles calculations show that He and Si, at high pressure, form four dynamically stable phases of Si2He (oP36-Si2He, tP9-Si2He, mC18-Si2He, and mC12-Si2He). All phases adopt host–guest structures consisting of a channel-like Si host framework filled with He guest atoms. The Si frameworks in oP36-Si2He, tP9-Si2He, and mC12-Si2He could be retained to ambient pressure after removal of He, forming three pure Si allotropes. Among them, oP36-Si2He and mC12-Si2He exhibit direct band gaps of 1.24 and 1.34 eV, respectively, close to the optimal value (~1.3 eV) for solar cell applications. Analysis shows that mC12-Si2He with an electric dipole transition allowed band gap possesses higher absorption capacity than cubic diamond Si, which makes it to be a promising candidate material for thin-film solar cell.
url https://doi.org/10.1038/s41524-021-00558-w
work_keys_str_mv AT shicongding heliumincorporationinduceddirectgapsilicides
AT jingmingshi heliumincorporationinduceddirectgapsilicides
AT jiahaoxie heliumincorporationinduceddirectgapsilicides
AT wenwencui heliumincorporationinduceddirectgapsilicides
AT panzhang heliumincorporationinduceddirectgapsilicides
AT kangyang heliumincorporationinduceddirectgapsilicides
AT jianhao heliumincorporationinduceddirectgapsilicides
AT lijunzhang heliumincorporationinduceddirectgapsilicides
AT yinweili heliumincorporationinduceddirectgapsilicides
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