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The performance of coupled (CdS:CdSe) quantum dot-sensitized TiO2 nanofibrous solar cells

Authors
Sudhagar, P.Jung, June HyukPark, SuilLee, Yong-GunSathyamoorthy, R.Kang, Yong SooAhn, Heejoon
Issue Date
Nov-2009
Publisher
Elsevier BV
Keywords
QDs-solar cells; TiO2 nanofibrous; CdS QDs; CdSe QDs; Quantum efficiency
Citation
Electrochemistry Communications, v.11, no.11, pp 2220 - 2224
Pages
5
Indexed
SCIE
SCOPUS
Journal Title
Electrochemistry Communications
Volume
11
Number
11
Start Page
2220
End Page
2224
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/175951
DOI
10.1016/j.elecom.2009.09.035
ISSN
1388-2481
1873-1902
Abstract
Highly porous networks and reduced grain boundaries with one-dimensional (1-D) nanofibrous morphology offer enhanced charge transport in solar cells applications. Quantum dot (QDs) decorated TiO2 nanofibrous electrodes, unlike organic dye sensitizers, can yield multiple carrier generations due to the quantum confinement effect. This paper describes the first attempt to combine these two novel approaches, in which US (similar to 18 nm) and CdSe (similar to 8 nm) QDs are sensitized onto electrospun TiO2 nanofibrous (diameter similar to 80-100 nm) electrodes. The photovoltaic performances of single (CdS and CdSe) and coupled (CdS/CdSe) QDs-sensitized TiO2 fibrous electrodes are demonstrated in sandwich-type solar cells using polysulfide electrolyte. The observed difficulties in charge injection and lesser spectral coverage of single QDs-sensitizers; are solved by coupling (CdS:CdSe) two QDs-sensitizers, resulting in a enhanced open-circuit voltage (0.64 V) with 2.69% efficiency. These results suggest the versatility of fibrous electrodes in QDs-sensitized solar cell applications.
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