Abstract
For the first time highly efficient photon energy up-conversion (anti-Stokes photoluminescence) has been observed in colloids of CdTe nanocrystals (NCs) and CdSe NCs covered by ZnS shell. The maximum magnitude of the up-converted blue shift ΔEUCmax = 335 meV was obtained for CdSe/ZnS NCs under excitation by a low-power He–Ne laser. The maximum efficiency for energy conversion was estimated to be about ηmax = 2.7 × 10—2 % at room temperature. The intensity of the anti-Stokes photoluminescence increases with temperature and shows a linear dependence on the excitation intensity. We suggest that subgap surface states are involved as intermediate states in the up-conversion process rather than nonlinear two-photon absorption or Auger processes.
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