Tuning of band-edges in type-I core–shell nanocrystals through band-offset engineering: selective quantum confinement effect

Dey, Sukumar ; Pal, Amlan J. (2013) Tuning of band-edges in type-I core–shell nanocrystals through band-offset engineering: selective quantum confinement effect RSC Advances, 3 (32). pp. 13225-13231. ISSN 2046-2069

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Official URL: http://pubs.rsc.org/en/Content/ArticleLanding/2013...

Related URL: http://dx.doi.org/10.1039/C3RA41525B

Abstract

The addition of a shell layer onto semiconducting quantum dots is an approach to control the optical bandgap of core–shell systems. In this direction, we have grown several core–shell nanostructures having a type-I heterostructure configuration. The nature of the energy-offset has been varied by a suitable shell-material with the aim to control the conduction and the valence band-offsets separately. Confined holes or electrons could hence be relaxed selectively leading to an increase in the valence band-edge or a decrease in the conduction band-edge. In this work, after forming such core–shell systems with a control over the shell thickness, we characterized the nanostructures with scanning tunneling spectroscopy in order to determine the density of states and finally the conduction and the valence band-edges of the core–shell systems. We found that while a large band-offset strictly localizes the carriers in the core, a small perturbation indeed delocalizes the carriers up to the shell-layer shifting the relevant band-edge towards the Fermi energy and thereby decreasing the transport gap. The decrease in the transport gap was in agreement with the optical absorption spectra. The results provide a novel route to delocalize a selective type of carrier up to the shell layer of core–shell nanostructured systems.

Item Type:Article
Source:Copyright of this article belongs to Royal Society of Chemistry.
ID Code:98355
Deposited On:04 Jun 2014 12:07
Last Modified:04 Jun 2014 12:07

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