The discovery of a superhard P-type transparent semiconductor: Al2.69B50

Xu Zheng; Dayu Yan; Changjiang Yi; Jinlong Zhu; Qinghua Zhang; Junyi Zhai; Teng Ma; Pinwen Zhu; Hui Li; Lin Gu; Yusheng Zhao; Yugui Yao; Youguo Shi; Xiaohui Yu; Changqing Jin

doi:10.1039/d1mh00975c

The discovery of a superhard P-type transparent semiconductor: Al_2.69B₅₀

Xu Zheng, Dayu Yan, Changjiang Yi, Jinlong Zhu, Qinghua Zhang, Junyi Zhai, Teng Ma, Pinwen Zhu, Hui Li, Lin Gu, Yusheng Zhao, Yugui Yao, Youguo Shi^*, Xiaohui Yu^*, Changqing Jin^*

^*Corresponding author for this work

School of Physics

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

4 Citations (Scopus)

Abstract

Superhard semiconductors have been long sought after for electronic device applications enduring extreme conditions, such as astronautics, due to their intrinsic toughness, high thermal and chemical stability. Here, we report the superhard p-type semiconductor Al2.69B50 single crystal with the determined Vickers hardness of ∼40.5 GPa under the load of 0.49 N, which is one of the hardest semiconductor compounds that have been ever found. With the direct band gap of 2.3 eV, Al2.69B50 exhibits excellent optical transmittance (>90%), covering the visible range from 459 nm to 760 nm and part of the infrared range, and also shows the high intensity of the photon emission in the visible light. Al2.69B50 is very stable, thermally and chemically, with an ultra-low density of ∼2.52 g cm-3, allowing for further extension of its applications. Such an assembly of various excellent properties within one material has great implication for high power electronic design and applications.

Original language	English
Pages (from-to)	748-755
Number of pages	8
Journal	Materials Horizons
Volume	9
Issue number	2
DOIs	https://doi.org/10.1039/d1mh00975c
Publication status	Published - Feb 2022

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title = "The discovery of a superhard P-type transparent semiconductor: Al2.69B50",

abstract = "Superhard semiconductors have been long sought after for electronic device applications enduring extreme conditions, such as astronautics, due to their intrinsic toughness, high thermal and chemical stability. Here, we report the superhard p-type semiconductor Al2.69B50 single crystal with the determined Vickers hardness of ∼40.5 GPa under the load of 0.49 N, which is one of the hardest semiconductor compounds that have been ever found. With the direct band gap of 2.3 eV, Al2.69B50 exhibits excellent optical transmittance (>90%), covering the visible range from 459 nm to 760 nm and part of the infrared range, and also shows the high intensity of the photon emission in the visible light. Al2.69B50 is very stable, thermally and chemically, with an ultra-low density of ∼2.52 g cm-3, allowing for further extension of its applications. Such an assembly of various excellent properties within one material has great implication for high power electronic design and applications.",

author = "Xu Zheng and Dayu Yan and Changjiang Yi and Jinlong Zhu and Qinghua Zhang and Junyi Zhai and Teng Ma and Pinwen Zhu and Hui Li and Lin Gu and Yusheng Zhao and Yugui Yao and Youguo Shi and Xiaohui Yu and Changqing Jin",

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doi = "10.1039/d1mh00975c",

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AU - Zheng, Xu

AU - Yan, Dayu

AU - Yi, Changjiang

AU - Zhu, Jinlong

AU - Zhang, Qinghua

AU - Zhai, Junyi

AU - Ma, Teng

AU - Zhu, Pinwen

AU - Li, Hui

AU - Gu, Lin

AU - Zhao, Yusheng

AU - Yao, Yugui

AU - Shi, Youguo

AU - Yu, Xiaohui

AU - Jin, Changqing

PY - 2022/2

Y1 - 2022/2

N2 - Superhard semiconductors have been long sought after for electronic device applications enduring extreme conditions, such as astronautics, due to their intrinsic toughness, high thermal and chemical stability. Here, we report the superhard p-type semiconductor Al2.69B50 single crystal with the determined Vickers hardness of ∼40.5 GPa under the load of 0.49 N, which is one of the hardest semiconductor compounds that have been ever found. With the direct band gap of 2.3 eV, Al2.69B50 exhibits excellent optical transmittance (>90%), covering the visible range from 459 nm to 760 nm and part of the infrared range, and also shows the high intensity of the photon emission in the visible light. Al2.69B50 is very stable, thermally and chemically, with an ultra-low density of ∼2.52 g cm-3, allowing for further extension of its applications. Such an assembly of various excellent properties within one material has great implication for high power electronic design and applications.

AB - Superhard semiconductors have been long sought after for electronic device applications enduring extreme conditions, such as astronautics, due to their intrinsic toughness, high thermal and chemical stability. Here, we report the superhard p-type semiconductor Al2.69B50 single crystal with the determined Vickers hardness of ∼40.5 GPa under the load of 0.49 N, which is one of the hardest semiconductor compounds that have been ever found. With the direct band gap of 2.3 eV, Al2.69B50 exhibits excellent optical transmittance (>90%), covering the visible range from 459 nm to 760 nm and part of the infrared range, and also shows the high intensity of the photon emission in the visible light. Al2.69B50 is very stable, thermally and chemically, with an ultra-low density of ∼2.52 g cm-3, allowing for further extension of its applications. Such an assembly of various excellent properties within one material has great implication for high power electronic design and applications.

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The discovery of a superhard P-type transparent semiconductor: Al_2.69B₅₀

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