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Ultra-thin van der Waals crystals as semiconductor quantum wells

by Wilson, Neil R. , Zou, Yichao , Novoselov, Kostya S. , Gorbachev, Roman , Zultak, Johanna , Fal’ko, Vladimir I. , Haigh, Sarah J. , Garner, Alistair , Kretinin, Andrey V. , Tóvári, Endre , Zhukov, Alexander A. , Koperski, Maciej , Magorrian, Samuel J. , Hamer, Matthew J.

in 639/925/357/1018 / 639/925/357/995 / Crystals / Electron mobility / Electron transport / Electrons / Emission analysis / Emission spectra / Energy / Graphene / Heterostructures / High electron mobility transistors / Humanities and Social Sciences / Infrared radiation / Lasers / Light emission / Light emitting diodes / Light sources / Measurement / multidisciplinary / Nanotechnology devices / Photoabsorption / Quantum wells / Resonance / Science / Science (multidisciplinary) / Semiconductor devices / Silicon wafers / Spectrum analysis / Thickness / Two dimensional materials / Wells

2020

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Ultra-thin van der Waals crystals as semiconductor quantum wells

2020

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2020

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Journal Article

Ultra-thin van der Waals crystals as semiconductor quantum wells

Wilson, Neil R.,

Zou, Yichao,

Novoselov, Kostya S.,

Gorbachev, Roman,

Zultak, Johanna,

Fal’ko, Vladimir I.,

Haigh, Sarah J.,

Garner, Alistair,

Kretinin, Andrey V.,

Tóvári, Endre,

Zhukov, Alexander A.,

Koperski, Maciej,

Magorrian, Samuel J.,

Hamer, Matthew J.

2020

Overview

Control over the quantization of electrons in quantum wells is at the heart of the functioning of modern advanced electronics; high electron mobility transistors, semiconductor and Capasso terahertz lasers, and many others. However, this avenue has not been explored in the case of 2D materials. Here we apply this concept to van der Waals heterostructures using the thickness of exfoliated crystals to control the quantum well dimensions in few-layer semiconductor InSe. This approach realizes precise control over the energy of the subbands and their uniformity guarantees extremely high quality electronic transport in these systems. Using tunnelling and light emitting devices, we reveal the full subband structure by studying resonance features in the tunnelling current, photoabsorption and light emission spectra. In the future, these systems could enable development of elementary blocks for atomically thin infrared and THz light sources based on intersubband optical transitions in few-layer van der Waals materials. A plethora of solid-state nanodevices rely on engineering the quantization of electrons in quantum wells. Here, the authors leverage the thickness of exfoliated 2D crystals to control the quantum well dimensions in few-layer semiconductor InSe and investigate the resonance features in the tunnelling current, photoabsorption and light emission spectra.

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Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

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