Samuel L. Sewall scite author profile

Biexcitons in strongly confined, colloidal CdSe quantum dots were investigated with excitonic state selectivity combined with 10 fs temporal precision. Within the first 50 fs, the first excited state of the biexciton was observed. By 100 ps, mixed character biexcitons were observed, comprised of a core exciton and a surface trapped exciton. The size dependence of the biexciton binding energies is reported for these specific biexcitons. Analysis of the spectral signatures of each biexcitonic state yields a quantitative measure of enhanced excited state trapping rates at the surface of the quantum dots. By comparing the biexcitonic signals to the state-filling signals, we show that it is primarily the holes which are trapped at the interface on the 100 ps time scale.

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Breaking the Phonon Bottleneck for Holes in Semiconductor Quantum Dots

Cooney

et al. 2007

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Size dependent hole dynamics are measured in colloidal CdSe quantum dots for a specific state-to-state excitonic transition. These experiments show that the hole energy loss rate increases for smaller quantum dots, contradicting known relaxation mechanisms for holes. These experiments reveal a new mechanism for hole relaxation in colloidal quantum dots which circumvents the expected phonon bottleneck for holes. The data are consistent with a nonadiabatic surface channel as the dominant pathway for hole relaxation in colloidal semiconductor quantum dots.

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State-to-state exciton dynamics in semiconductor quantum dots

et al. 2006

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Size dependent, state-resolved studies of exciton-phonon couplings in strongly confined semiconductor quantum dots

et al. 2008

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Samuel L. Sewall

Unified picture of electron and hole relaxation pathways in semiconductor quantum dots

State-resolved studies of biexcitons and surface trapping dynamics in semiconductor quantum dots

Breaking the Phonon Bottleneck for Holes in Semiconductor Quantum Dots

State-to-state exciton dynamics in semiconductor quantum dots

Size dependent, state-resolved studies of exciton-phonon couplings in strongly confined semiconductor quantum dots

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