Widely tunable direct bandgap of two-dimensional GeSe

Yu Zhang; Xin Xin Wang; Li Jie Shi

doi:10.1088/1361-648X/abba66

Widely tunable direct bandgap of two-dimensional GeSe

Yu Zhang, Xin Xin Wang, Li Jie Shi^*

^*此作品的通讯作者

物理学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

5 引用（Scopus）

摘要

Bulk GeSe is an indirect bandgap semiconductor. However, direct bandgap semiconductor of two-dimensional GeSe can be obtained by applying strain along armchair direction, and the direct bandgap can be tuned in a wide energy range from 0.86 eV to 0.00 eV by electric field. The bandgap modulation mechanism is studied in detail by first-principle calculations. The calculations of phonon spectra show that the crystal structure is relatively stable under the strain and electric field. Therefore, 2D GeSe is a promising material in frequency adjustable electronic and optical devices.

源语言	英语
文章编号	115301
期刊	Journal of Physics Condensed Matter
卷	33
期	11
DOI	https://doi.org/10.1088/1361-648X/abba66
出版状态	已出版 - 17 3月 2020

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Zhang, Y., Wang, X. X., & Shi, L. J. (2020). Widely tunable direct bandgap of two-dimensional GeSe. Journal of Physics Condensed Matter, 33(11), 文章 115301. https://doi.org/10.1088/1361-648X/abba66

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abstract = "Bulk GeSe is an indirect bandgap semiconductor. However, direct bandgap semiconductor of two-dimensional GeSe can be obtained by applying strain along armchair direction, and the direct bandgap can be tuned in a wide energy range from 0.86 eV to 0.00 eV by electric field. The bandgap modulation mechanism is studied in detail by first-principle calculations. The calculations of phonon spectra show that the crystal structure is relatively stable under the strain and electric field. Therefore, 2D GeSe is a promising material in frequency adjustable electronic and optical devices.",

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author = "Yu Zhang and Wang, {Xin Xin} and Shi, {Li Jie}",

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N2 - Bulk GeSe is an indirect bandgap semiconductor. However, direct bandgap semiconductor of two-dimensional GeSe can be obtained by applying strain along armchair direction, and the direct bandgap can be tuned in a wide energy range from 0.86 eV to 0.00 eV by electric field. The bandgap modulation mechanism is studied in detail by first-principle calculations. The calculations of phonon spectra show that the crystal structure is relatively stable under the strain and electric field. Therefore, 2D GeSe is a promising material in frequency adjustable electronic and optical devices.

AB - Bulk GeSe is an indirect bandgap semiconductor. However, direct bandgap semiconductor of two-dimensional GeSe can be obtained by applying strain along armchair direction, and the direct bandgap can be tuned in a wide energy range from 0.86 eV to 0.00 eV by electric field. The bandgap modulation mechanism is studied in detail by first-principle calculations. The calculations of phonon spectra show that the crystal structure is relatively stable under the strain and electric field. Therefore, 2D GeSe is a promising material in frequency adjustable electronic and optical devices.

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Widely tunable direct bandgap of two-dimensional GeSe

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