Electronic structures of air-exposed few-layer black phosphorus by optical spectroscopy

Fanjie Wang; Guowei Zhang; Shenyang Huang; Chaoyu Song; Chong Wang; Qiaoxia Xing; Yuchen Lei; Hugen Yan

doi:10.1103/PhysRevB.99.075427

Electronic structures of air-exposed few-layer black phosphorus by optical spectroscopy

Fanjie Wang^*, Guowei Zhang, Shenyang Huang, Chaoyu Song, Chong Wang, Qiaoxia Xing, Yuchen Lei, Hugen Yan

^*Corresponding author for this work

Fudan University

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

20 Citations (Scopus)

Abstract

The electronic structure of few-layer (FL) black phosphorus (BP) sensitively depends on the sample thickness, strain, and doping. We show that it is also vulnerable to air exposure. The oxidation of BP caused by air exposure gives several optical signatures, including the broadening of resonance peaks and increased Stokes shift between infrared (IR) absorption and photoluminescence (PL) peaks. More importantly, air exposure causes blueshifts of all resonance peaks in IR absorption and PL spectra, with more prominent effects for thinner samples and higher-order subband transitions. Our study alludes to a convenient and exotic way for band-structure engineering of FL-BP through controllable air exposure or defect creation.

Original language	English
Article number	075427
Journal	Physical Review B
Volume	99
Issue number	7
DOIs	https://doi.org/10.1103/PhysRevB.99.075427
Publication status	Published - 19 Feb 2019
Externally published	Yes

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Wang, F., Zhang, G., Huang, S., Song, C., Wang, C., Xing, Q., Lei, Y., & Yan, H. (2019). Electronic structures of air-exposed few-layer black phosphorus by optical spectroscopy. Physical Review B, 99(7), Article 075427. https://doi.org/10.1103/PhysRevB.99.075427

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abstract = "The electronic structure of few-layer (FL) black phosphorus (BP) sensitively depends on the sample thickness, strain, and doping. We show that it is also vulnerable to air exposure. The oxidation of BP caused by air exposure gives several optical signatures, including the broadening of resonance peaks and increased Stokes shift between infrared (IR) absorption and photoluminescence (PL) peaks. More importantly, air exposure causes blueshifts of all resonance peaks in IR absorption and PL spectra, with more prominent effects for thinner samples and higher-order subband transitions. Our study alludes to a convenient and exotic way for band-structure engineering of FL-BP through controllable air exposure or defect creation.",

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AU - Wang, Fanjie

AU - Zhang, Guowei

AU - Huang, Shenyang

AU - Song, Chaoyu

AU - Wang, Chong

AU - Xing, Qiaoxia

AU - Lei, Yuchen

AU - Yan, Hugen

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Y1 - 2019/2/19

N2 - The electronic structure of few-layer (FL) black phosphorus (BP) sensitively depends on the sample thickness, strain, and doping. We show that it is also vulnerable to air exposure. The oxidation of BP caused by air exposure gives several optical signatures, including the broadening of resonance peaks and increased Stokes shift between infrared (IR) absorption and photoluminescence (PL) peaks. More importantly, air exposure causes blueshifts of all resonance peaks in IR absorption and PL spectra, with more prominent effects for thinner samples and higher-order subband transitions. Our study alludes to a convenient and exotic way for band-structure engineering of FL-BP through controllable air exposure or defect creation.

AB - The electronic structure of few-layer (FL) black phosphorus (BP) sensitively depends on the sample thickness, strain, and doping. We show that it is also vulnerable to air exposure. The oxidation of BP caused by air exposure gives several optical signatures, including the broadening of resonance peaks and increased Stokes shift between infrared (IR) absorption and photoluminescence (PL) peaks. More importantly, air exposure causes blueshifts of all resonance peaks in IR absorption and PL spectra, with more prominent effects for thinner samples and higher-order subband transitions. Our study alludes to a convenient and exotic way for band-structure engineering of FL-BP through controllable air exposure or defect creation.

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Electronic structures of air-exposed few-layer black phosphorus by optical spectroscopy

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