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Indirect to direct band gap crossover in two-dimensional WS 2(1-x) Se 2x alloys

Abstract : In atomically thin transition metal dichalcogenide semiconductors, there is a crossover from indirect to direct band gap as the thickness drops to one monolayer, which comes with a fast increase of the photoluminescence signal. Here, we show that for different alloy compositions of WS 2(1-x) Se 2x this trend may be significantly affected by the alloy content and we demonstrate that the sample with the highest Se ratio presents a strongly reduced effect. The highest micro-PL intensity is found for bilayer WS 2(1-x) Se 2x (x = 0.8) with a decrease of its maximum value by only a factor of 2 when passing from mono-to bi-layer. To better understand this factor and explore the layer-dependent band structure evolution of WS 2(1-x) Se 2x , we performed a nano-angle resolved photoemission spectroscopy study coupled with first-principles calculations. We find that the high micro-PL value for bilayer WS 2(1-x) Se 2x (x = 0.8) is due to the overlay of direct and indirect optical transitions. This peculiar high PL intensity in WS 2(1-x) Se 2x opens the way for spectrally tunable light-emitting devices.
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https://hal.archives-ouvertes.fr/hal-03097524
Contributor : Emmanuel Lhuillier <>
Submitted on : Tuesday, January 5, 2021 - 1:35:59 PM
Last modification on : Wednesday, January 20, 2021 - 3:37:24 AM

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  • HAL Id : hal-03097524, version 1

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Cyrine Ernandes, Lama Khalil, Hela Almabrouk, Debora Pierucci, Biyuan Zheng, et al.. Indirect to direct band gap crossover in two-dimensional WS 2(1-x) Se 2x alloys. npj 2D Materials and Applications, Nature, 2021. ⟨hal-03097524⟩

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