Sabina Gurung scite author profile

In a metal−semiconductor hybrid nanostructure, exchange of carriers between the two constituents is a crucial process determining its utility for various applications. Although the transfer of carriers from the metal to semiconductor (or vice versa) shows up in several ways, it is not easy to get a quantitative estimate of the process. In this paper, we show that it is possible to obtain a fair estimate of the number of carriers hopping from or to a metal nanoparticle by performing transient absorption measurement near the localized surface plasmon resonance peak. For demonstrating this concept, a specific Ag−CdTe hybrid nanostructure was prepared such that plasmon resonance of the Ag nanoparticles could be excited well below the band gap of the CdTe quantum dots. Using a simple Drude model and the changes in the number density of free electrons, we show that the transient optical response of the hybrid is governed by both free-electron temperature and the number of carriers transported in and out of the metal nanoplates. It is also shown that using the linear absorption spectra as reference, it is possible to estimate the number of carriers hopping between the two constituents of the hybrid. The estimate of the number of electrons hopping at ultrafast time scales can provide a way to optimize the design of a metal−semiconductor hybrid system for specific applications.

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Ultrafast carrier dynamics in a monolayer MoS₂ at carrier densities well above Mott density

Khatua

Singh

Gurung

et al. 2022

J. Phys.: Condens. Matter

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Due to the growing interest in monolayer Molybdenum Disulfide (MoS2) in several optoelectronic applications like lasers, detectors, sensors, it is important to understand the ultrafast behavior of the excited carriers in this material. In this article, a comprehensive study of the charge carrier dynamics of a monolayer MoS2 flake has been studied using transient transmission technique near A-exciton under high excitation densities well above the Mott density. Fluence dependent studies has been carried out to understand the origin of the processes which modifies its optical response under excitation. The dissociation of excitons leads to an observed fast bandgap renormalization. At later times when large number of carriers relax the remaining carriers forms excitons leading to a bleaching effect.

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Sabina Gurung

The optical response of self-organized Ag-CdTe metal-semiconductor hybrid nanostructures: Change in interaction vs number density variation

Counting the Electrons Hopping in Ultrafast Time Scales in an Ag–CdTe Hybrid Nanostructure

Ultrafast carrier dynamics in a monolayer MoS₂ at carrier densities well above Mott density

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Sabina Gurung

The optical response of self-organized Ag-CdTe metal-semiconductor hybrid nanostructures: Change in interaction vs number density variation

Counting the Electrons Hopping in Ultrafast Time Scales in an Ag–CdTe Hybrid Nanostructure

Ultrafast carrier dynamics in a monolayer MoS2 at carrier densities well above Mott density

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Ultrafast carrier dynamics in a monolayer MoS₂ at carrier densities well above Mott density