Simultaneous creation and recovery of trap states on quantum dots in a photoirradiated CdSe-ZnO system

Karel Žídek; Kaibo Zheng; Mohamed Abdellah; Pavel Chábera; Tõnu Pullerits; Masanori Tachyia

doi:10.1021/jp509242r

Simultaneous creation and recovery of trap states on quantum dots in a photoirradiated CdSe-ZnO system

Karel Žídek, Kaibo Zheng, Mohamed Abdellah, Pavel Chábera, Tõnu Pullerits, Masanori Tachyia

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

We study changes in the steady-state absorption and ultrafast transient absorption kinetics of the photoirradiated CdSe quantum dot-ZnO system. The changes enable us to reconstruct kinetics of trap creation, which are analyzed with respect to three possible models: trap creation without recovery, trap creation and recovery, and trap creation with an upper limit for trap number accommodated on a quantum dot. We demonstrate that only the model of parallel trap creation and recovery can explain our experimental data. The evidence points toward oxygen generating trapping sites on QD surface and simultaneously passivating the trapping sites by their oxidation. (Graph Presented).

Original language	English
Pages (from-to)	27567-27573
Number of pages	7
Journal	Journal of Physical Chemistry C
Volume	118
Issue number	47
DOIs	https://doi.org/10.1021/jp509242r
Publication status	Published - Nov 26 2014
Externally published	Yes

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
General Energy
Physical and Theoretical Chemistry
Surfaces, Coatings and Films

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abstract = "We study changes in the steady-state absorption and ultrafast transient absorption kinetics of the photoirradiated CdSe quantum dot-ZnO system. The changes enable us to reconstruct kinetics of trap creation, which are analyzed with respect to three possible models: trap creation without recovery, trap creation and recovery, and trap creation with an upper limit for trap number accommodated on a quantum dot. We demonstrate that only the model of parallel trap creation and recovery can explain our experimental data. The evidence points toward oxygen generating trapping sites on QD surface and simultaneously passivating the trapping sites by their oxidation. (Graph Presented).",

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T1 - Simultaneous creation and recovery of trap states on quantum dots in a photoirradiated CdSe-ZnO system

AU - Žídek, Karel

AU - Zheng, Kaibo

AU - Abdellah, Mohamed

AU - Chábera, Pavel

AU - Pullerits, Tõnu

AU - Tachyia, Masanori

PY - 2014/11/26

Y1 - 2014/11/26

N2 - We study changes in the steady-state absorption and ultrafast transient absorption kinetics of the photoirradiated CdSe quantum dot-ZnO system. The changes enable us to reconstruct kinetics of trap creation, which are analyzed with respect to three possible models: trap creation without recovery, trap creation and recovery, and trap creation with an upper limit for trap number accommodated on a quantum dot. We demonstrate that only the model of parallel trap creation and recovery can explain our experimental data. The evidence points toward oxygen generating trapping sites on QD surface and simultaneously passivating the trapping sites by their oxidation. (Graph Presented).

AB - We study changes in the steady-state absorption and ultrafast transient absorption kinetics of the photoirradiated CdSe quantum dot-ZnO system. The changes enable us to reconstruct kinetics of trap creation, which are analyzed with respect to three possible models: trap creation without recovery, trap creation and recovery, and trap creation with an upper limit for trap number accommodated on a quantum dot. We demonstrate that only the model of parallel trap creation and recovery can explain our experimental data. The evidence points toward oxygen generating trapping sites on QD surface and simultaneously passivating the trapping sites by their oxidation. (Graph Presented).

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Simultaneous creation and recovery of trap states on quantum dots in a photoirradiated CdSe-ZnO system

Abstract

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