Unveiling the complex phonon nature and phonon cascades in 1L to 5L WSe using multiwavelength excitation Raman scattering

Tungsten diselenide (WSe 2 ) is a 2D semiconducting material, promising for novel optoelectronic and phononic applications. WSe 2 has complex lattice dynamics and phonon structure. Numerous discrepancies in the literature exist regarding the interpretation and identification of phonon modes. This wo...

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Published in:Nanoscale advances 2024-09, Vol.6 (18), p.4591-463
Main Authors: Blaga, Claire, Labordet Álvarez, Ángel, Balgarkashi, Akshay, Banerjee, Mitali, Fontcuberta i Morral, Anna, Dimitrievska, Mirjana
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Summary:Tungsten diselenide (WSe 2 ) is a 2D semiconducting material, promising for novel optoelectronic and phononic applications. WSe 2 has complex lattice dynamics and phonon structure. Numerous discrepancies in the literature exist regarding the interpretation and identification of phonon modes. This work presents a complete investigation of the vibrational properties of 1L to 5L flakes and bulk WSe 2 using multi-wavelength Raman spectroscopy. We especially highlight measurements using 785 nm excitation, which have not been performed before. These allow us to solve inconsistences in the literature in terms of defect-activated non- Γ point single phonon modes and Breit-Wigner-Fano type resonance. We identify 35 Raman peaks per flake thickness, which we attribute to either one-phonon or multi-phonon modes, including two-phonon scattering due to a van Hove singularity (vHs). The measurements are in excellent agreement with the theoretical predictions. Using photoluminescence measurements, we identify photon-exciton coupling leading to resonant Raman scattering, suggesting wavelength laser excitations best suited for further investigations of specific WSe 2 flake thicknesses. Finally, we report the observation of phonon-cascades for all WSe 2 flake thicknesses, indicating strong phonon-electron interactions during early carrier relaxation processes in WSe 2 . This research provides a solid foundation and reference for future investigations of the vibrational properties of WSe 2 , paving the way for further development of this material towards applications. We unveil the complex phonon dynamics of WSe 2 by using multiwavelength excitation Raman spectroscopy and report phonon-cascades for all WSe 2 flake thicknesses, indicating strong phonon-electron interactions during early carrier relaxation processes.
ISSN:2516-0230
DOI:10.1039/d4na00399c