Issue 37, 2023

Induced UV photon sensing properties in narrow bandgap CdTe quantum dots through controlling hot electron dynamics

Abstract

Mn-doped CdTe (Mn-CdTe) quantum dot (QD) as well as quantum dot solid (QD solid) nanostructures are formed and the established structures are confirmed through HR-TEM analysis. The dynamics of charge carriers in both doped & undoped QD and QD solid structures were investigated by transient absorption (TA) spectroscopy. A slow band edge bleach recovery is obtained for Mn-doped CdTe QD and CdTe QD solid systems at room temperature. Additionally, a blue shifted broad bleach behaviour is identified for the Mn-CdTe QD solid system, which is attributed to hot exciton formation in the solid upon photoexcitation with a higher photon energy than the band gap energy ( > Eg). This noteworthy process of generation of hot excitons and slow charge recombination occurs by means of a synergetic action of the Mn dopant in the host CdTe QD solid system as well as the extended electronic wave function between the coupled QD solid. Apart from the Mn-assisted delayed relaxation of hot electrons in the QD solid, a suppression in dark current as well as a high ION/IOFF ratio of 3203.12 at 1 V is observed in the Mn-CdTe QD-solid based photosensitized device in the visible region. Furthermore, we were able to improve the UV photon harvesting property in a narrow band gap Mn-CdTe QD solid through reducing the higher excited carrier's energy losses.

Graphical abstract: Induced UV photon sensing properties in narrow bandgap CdTe quantum dots through controlling hot electron dynamics

Associated articles

Supplementary files

Article information

Article type
Paper
Submitted
26 May 2023
Accepted
01 Sep 2023
First published
01 Sep 2023

Phys. Chem. Chem. Phys., 2023,25, 25331-25343

Induced UV photon sensing properties in narrow bandgap CdTe quantum dots through controlling hot electron dynamics

T. Thrupthika, D. Nataraj, S. Ramya, A. Sangeetha and T. D. Thangadurai, Phys. Chem. Chem. Phys., 2023, 25, 25331 DOI: 10.1039/D3CP02424E

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