Acoustically enhanced photodetection by a black phosphorus–MoS2 van der Waals heterojunction p–n diode
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Title
Acoustically enhanced photodetection by a black phosphorus–MoS2 van der Waals heterojunction p–n diode
Authors
Keywords
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Journal
Nanoscale
Volume 10, Issue 21, Pages 10148-10153
Publisher
Royal Society of Chemistry (RSC)
Online
2018-05-09
DOI
10.1039/c8nr02022a
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- (2016) Zhipei Sun et al. Nature Photonics
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- (2015) Xi Ling et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
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- (2015) Edwin Preciado et al. Nature Communications
- Acoustic-Excitonic Coupling for Dynamic Photoluminescence Manipulation of Quasi-2D MoS2Nanoflakes
- (2015) Amgad R. Rezk et al. Advanced Optical Materials
- Black Phosphorus–Monolayer MoS2 van der Waals Heterojunction p–n Diode
- (2014) Yexin Deng et al. ACS Nano
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- Strong Light-Matter Interactions in Heterostructures of Atomically Thin Films
- (2013) L. Britnell et al. SCIENCE
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- (2010) C. R. Dean et al. Nature Nanotechnology
- Resolved Sideband Emission ofInAs/GaAsQuantum Dots Strained by Surface Acoustic Waves
- (2010) M. Metcalfe et al. PHYSICAL REVIEW LETTERS
- Photon anti-bunching in acoustically pumped quantum dots
- (2009) O. D. D. Couto et al. Nature Photonics
- Modulation of single quantum dot energy levels by a surface-acoustic-wave
- (2008) J. R. Gell et al. APPLIED PHYSICS LETTERS
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