Quantum Confinement Regimes in CdTe Nanocrystals Probed by Single Dot Spectroscopy: From Strong Confinement to the Bulk Limit
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Publication date
2015-08-25
Authors
Tilchin, Jenya
Rabouw, Freddy
Isarov, Maya
Vaxenburg, Roman
Van Dijk-Moes, Relinde J.A.
Lifshitz, Efrat
Vanmaekelbergh, Daniel
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taverne
Abstract
Sufficiently large semiconductor nanocrystals are a useful model system to characterize bulk-like excitons, with the electron and hole bound predominantly by Coulomb interaction. We present optical characterization of excitons in individual giant CdTe nanocrystals with diameters up to 25.5 nm at 4.2 K under varying excitation power and magnetic field strength. We determine values for the biexciton binding energy, diamagnetic shift constant, and Landé g-factor, which approach the bulk values with increasing nanocrystal size. (Figure Presented).
Keywords
exciton localization, multiexcitons, semiconductor quantum dots, weak quantum confinement, Taverne, General Engineering, General Materials Science, General Physics and Astronomy
Citation
Tilchin, J, Rabouw, F T, Isarov, M, Vaxenburg, R, Moes, R, Lifshitz, E & Vanmaekelbergh, D 2015, 'Quantum Confinement Regimes in CdTe Nanocrystals Probed by Single Dot Spectroscopy : From Strong Confinement to the Bulk Limit', ACS Nano, vol. 9, no. 8, pp. 7840-7845. https://doi.org/10.1021/acsnano.5b02597