Localized coherent phonon generation in monolayer MoSe2 from ultrafast exciton trapping at shallow traps

Soungmin Bae; Tae Young Jeong; Hannes Raebiger; Ki-Ju Yee; Yong-Hoon Kim

doi:10.1039/D3NH00194F

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Localized coherent phonon generation in monolayer MoSe₂ from ultrafast exciton trapping at shallow traps†

Soungmin Bae,‡^ab Tae Young Jeong,‡^c Hannes Raebiger,^b Ki-Ju Yee*^c and Yong-Hoon Kim

*^a

Author affiliations

* Corresponding authors

^a Department of Electrical Engineering, Korea Advanced Institute of Science and Technology (KAIST), Daejeon 34141, Korea
E-mail: y.h.kim@kaist.ac.kr

^b Department of Physics, Yokohama National University, Yokohama, Japan

^c Department of Physics, Chungnam National University, Daejeon 34134, Korea
E-mail: kyee@cnu.ac.kr

Abstract

We report spectroscopic evidence for the ultrafast trapping of band edge excitons at defects and the subsequent generation of defect-localized coherent phonons (CPs) in monolayer MoSe₂. While the photoluminescence measurement provides signals of exciton recombination at both shallow and deep traps, our time-resolved pump-probe spectroscopy on the sub-picosecond time scale detects localized CPs only from the ultrafast exciton trapping at shallow traps. Based on occupation-constrained density functional calculations, we identify the Se vacancy and the oxygen molecule adsorbed on a Se vacancy as the atomistic origins of deep and shallow traps, respectively. Establishing the correlations between the defect-induced ultrafast exciton trapping and the generation of defect-localized CPs, our work could open up new avenues to engineer photoexcited carriers through lattice defects in two-dimensional materials.

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Article information

DOI: https://doi.org/10.1039/D3NH00194F
Article type: Communication
Submitted: 23 May 2023
Accepted: 10 Jul 2023
First published: 11 Jul 2023

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Nanoscale Horiz., 2023,8, 1282-1287

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Localized coherent phonon generation in monolayer MoSe₂ from ultrafast exciton trapping at shallow traps

S. Bae, T. Y. Jeong, H. Raebiger, K. Yee and Y. Kim, Nanoscale Horiz., 2023, 8, 1282 DOI: 10.1039/D3NH00194F

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