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Main Authors: Konda, Srinivasa Rao, Barik, Puspendu, Singh, Subshash, Mottamchetty, Venkatesh, Srivasthava, Amit, Ganeev, Rashid A., Rao, Soma Venugopal, Guo, Chunlei, Li, Wei
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2404.12561
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author Konda, Srinivasa Rao
Barik, Puspendu
Singh, Subshash
Mottamchetty, Venkatesh
Srivasthava, Amit
Ganeev, Rashid A.
Rao, Soma Venugopal
Guo, Chunlei
Li, Wei
author_facet Konda, Srinivasa Rao
Barik, Puspendu
Singh, Subshash
Mottamchetty, Venkatesh
Srivasthava, Amit
Ganeev, Rashid A.
Rao, Soma Venugopal
Guo, Chunlei
Li, Wei
contents The studies of the nonlinear optical (NLO) properties of the transition metal dichalcogenides (TMDs) coupled with photoactive particles, plasmonic nanocavities, waveguides, and metamaterials remain in their infancy. This study investigates the third-order NLO properties of MoS$_2$ nanosheets in the presence of a semiconductor photoactive medium. Our extensive studies and the obtained results reveal the counteractive coupling effect of bare and passivated quantum dots on the MoS$_2$ nanosheet, as made evident by the analysis of the NLO processes. The enhanced NLO properties of MoS$_2$ nanosheets functionalized with CdSe and CdSe-V2O5 quantum dots are helpful for applications as saturable absorbers in laser applications and the emission of coherent short-wavelength radiation. The multiphoton-excitation resonance energy transfer mechanism exploiting remote dipole dipole coupling, and ultrafast charge transfer pathways emerges as another plausible way to alter the NLO properties in TMDs.
format Preprint
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institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Charge transfer mechanism on MoS$_2$ nanosheets in the presence of a semiconductor photoactive media
Konda, Srinivasa Rao
Barik, Puspendu
Singh, Subshash
Mottamchetty, Venkatesh
Srivasthava, Amit
Ganeev, Rashid A.
Rao, Soma Venugopal
Guo, Chunlei
Li, Wei
Applied Physics
The studies of the nonlinear optical (NLO) properties of the transition metal dichalcogenides (TMDs) coupled with photoactive particles, plasmonic nanocavities, waveguides, and metamaterials remain in their infancy. This study investigates the third-order NLO properties of MoS$_2$ nanosheets in the presence of a semiconductor photoactive medium. Our extensive studies and the obtained results reveal the counteractive coupling effect of bare and passivated quantum dots on the MoS$_2$ nanosheet, as made evident by the analysis of the NLO processes. The enhanced NLO properties of MoS$_2$ nanosheets functionalized with CdSe and CdSe-V2O5 quantum dots are helpful for applications as saturable absorbers in laser applications and the emission of coherent short-wavelength radiation. The multiphoton-excitation resonance energy transfer mechanism exploiting remote dipole dipole coupling, and ultrafast charge transfer pathways emerges as another plausible way to alter the NLO properties in TMDs.
title Charge transfer mechanism on MoS$_2$ nanosheets in the presence of a semiconductor photoactive media
topic Applied Physics
url https://arxiv.org/abs/2404.12561