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Photoexcited carrier dynamics within alloyed CdSeTe colloidal quantum dots and at the CdSeTe/TiO2 interface.

Authors :
Wei, Huiyun
Wang, Hao
Xie, Jinye
Qiu, Peng
Yan, Ke
Guo, Peiyuan
He, Yingfeng
Song, Yimeng
Peng, Mingzeng
Zheng, Xinhe
Source :
Ceramics International. Apr2021:Part A, Vol. 47 Issue 7, p9418-9423. 6p.
Publication Year :
2021

Abstract

Alloying strategy in quantum dots (QDs) has shown great advantages in regulating photophysical properties and improving the performance of photovoltaic devices. Typically, CdSeTe alloy QD is proved to be a superior photosensitizer, and has presented great potential in constructing high-efficient quantum dot solar cells. However, systematic analysis for the carrier dynamics is still lacking. In this paper, the carrier dynamics within CdSeTe colloidal QDs and at the TiO 2 /CdSeTe interface has been studied in detail by transient absorption (TA) spectroscopy and photoluminescence (PL) spectroscopy. TA results show that the gradient component of CdSeTe QDs leads to different electronic transition properties distinct from those of their parent binary components. Temperature-dependent time-resolved PL spectra for the CdSeTe/TiO 2 demonstrate that PL lifetime decreases from 13.54 to 3.08 ns with increasing temperature from 10 to 300 K. Moreover, the electron transfer rate increases more quickly when temperature exceeds 250 K. In addition, it is confirmed that the crystallization characteristics of TiO 2 have a significant impact on the interfacial carrier dynamics. A faster electron transfer from CdSeTe QDs to rutile TiO 2 (R–TiO 2) has been obtained than that to anatase TiO 2 (5.65 × 108/s vs 3.21 × 108/s). Both QDs adsorption and electron transfer properties closely dependent on the crystal orientation of R–TiO 2 single crystal. CdSeTe QDs attached to the (100) R–TiO 2 single crystal surface achieve the fastest electron transfer rate than other R–TiO 2 orientations of (111), (110) and (001). [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
02728842
Volume :
47
Issue :
7
Database :
Academic Search Index
Journal :
Ceramics International
Publication Type :
Academic Journal
Accession number :
148988157
Full Text :
https://doi.org/10.1016/j.ceramint.2020.12.074