Jin-Huan Li scite author profile

Jin-Huan Li

2Publications

15Citation Statements Received

46Citation Statements Given

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Nanjing Tech University, Northeast Normal University

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Thickness-dependent excitonic properties of atomically thin 2H-MoTe₂*

et al. 2020

Chinese Phys. B

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Two-dimensional (2D) 2H-MoTe2 is a promising semiconductor because of its small bandgap, strong absorption, and low thermal conductivity. In this paper, we systematically study the optical and excitonic properties of atomically thin 2H-MoTe2 (1–5 layers). Due to the fact that the optical contrast and Raman spectra of 2H-MoTe2 with different thicknesses exhibit distinctly different behaviors, we establish a quantitative method by using optical images and Raman spectra to directly identify the layers of 2H-MoTe2 thin films. Besides, excitonic states and binding energy in monolayer/bilayer 2H-MoTe2 are measured by temperature-dependent photoluminescence (PL) spectroscopy. At temperature T = 3.3 K, we can observe an exciton emission at ∼ 1.19 eV and trion emission at ∼ 1.16 eV for monolayer 2H-MoTe2. While at room temperature, the exciton emission and trion emission both disappear for their small binding energy. We determine the exciton binding energy to be 185 meV (179 meV), trion binding energy to be 20 meV (18 meV) for the monolayer (bilayer) 2H-MoTe2. The thoroughly studies of the excitonic states in atomically thin 2H-MoTe2 will provide guidance for future practical applications.

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Analysis and correction of the distortion error in a DMD based scanning lithography system

Xiao

Liu

et al. 2019

Optics Communications

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Jin-Huan Li

Thickness-dependent excitonic properties of atomically thin 2H-MoTe₂*

Analysis and correction of the distortion error in a DMD based scanning lithography system

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Jin-Huan Li

Thickness-dependent excitonic properties of atomically thin 2H-MoTe2*

Analysis and correction of the distortion error in a DMD based scanning lithography system

Contact Info

Product

Resources

About

Thickness-dependent excitonic properties of atomically thin 2H-MoTe₂*