Temperature and size dependence of time-resolved exciton recombination in ZnO quantum dots - Archive ouverte HAL
Article Dans Une Revue Applied Physics Letters Année : 2011

Temperature and size dependence of time-resolved exciton recombination in ZnO quantum dots

Laurent Cario
Jean-Luc Duvail
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Stéphane Jobic
Philippe Deniard
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Eric Faulques

Résumé

ZnO nanocrystals with various sizes were prepared and characterized. Their photoluminescence dynamics has been investigated at low temperatures. For the smallest particles (3 nm), a defect-induced long-lived photoluminescence occurs around 2.5 eV which is slowed down at decay times longer than 3 ns when sample temperature T decreases. From thermal quenching of the 2.5 eV band, the exciton dissociation energy at defect centers is estimated around ∼11.8 meV. For larger crystallites (10 and 20 nm), the ultraviolet emission observed at 3.32 eV decays in less than 85 ps and follows a Varshni law [Y. P. Varshni, Physica (Amsterdam) 34, 149 (1967)].
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Dates et versions

hal-00849718 , version 1 (31-07-2013)

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I. Musa, F. Massuyeau, Laurent Cario, Jean-Luc Duvail, Stéphane Jobic, et al.. Temperature and size dependence of time-resolved exciton recombination in ZnO quantum dots. Applied Physics Letters, 2011, 99 (24), pp.243107. ⟨10.1063/1.3669511⟩. ⟨hal-00849718⟩
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