Efficiency Enhancement of PbS Quantum Dot/ZnO Nanowire Bulk-Heterojunction Solar Cells by Plasmonic Silver Nanocubes

Efficiency Enhancement of PbS Quantum Dot/ZnO Nanowire Bulk-Heterojunction Solar Cells by Plasmonic Silver Nanocubes

For improvement of solar cell performance, it is important to make efficient use of near-infrared light, which accounts for ∼40% of sunlight energy. Here we introduce plasmonic Ag nanocubes (NCs) to colloidal PbS quantum dot/ZnO nanowire (PbS QD/ZnO NW) bulk-heterojunction solar cells, which are cha...

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Bibliographic Details
Published in:ACS nano Vol. 9; no. 4; pp. 4165 - 4172
Main Authors: Kawawaki, Tokuhisa, Wang, Haibin, Kubo, Takaya, Saito, Koichiro, Nakazaki, Jotaro, Segawa, Hiroshi, Tatsuma, Tetsu
Format: Journal Article
Language:English
Published: United States American Chemical Society 28-04-2015
Subjects:
Nanowires
Photocurrent
Photoelectric effect
Photovoltaic cells
Plasmonics
Qunatum dots
Silver
Solar cells
Zinc oxide
localized surface plasmon resonance
colloidal quantum dot
bulk-heterojunction solar cell
silver nanocube
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Summary:For improvement of solar cell performance, it is important to make efficient use of near-infrared light, which accounts for ∼40% of sunlight energy. Here we introduce plasmonic Ag nanocubes (NCs) to colloidal PbS quantum dot/ZnO nanowire (PbS QD/ZnO NW) bulk-heterojunction solar cells, which are characterized by high photocurrents, for further improvement in the photocurrent and power conversion efficiency (PCE) in the visible and near-infrared regions. The Ag NCs exhibit strong far field scattering and intense optical near field in the wavelength region where light absorption of PbS QDs is relatively weak. Photocurrents of the solar cells are enhanced by the Ag NCs particularly in the range 700–1200 nm because of plasmonic enhancement of light absorption and possible facilitation of exciton dissociation. As a result of the optimization of the position and amount of Ag NCs, the PCE of PbS QD/ZnO NW bulk-heterojunction solar cells is improved from 4.45% to 6.03% by 1.36 times.
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ISSN:1936-0851
1936-086X
DOI:10.1021/acsnano.5b00321