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JOURNAL ARTICLE

Plasmonic multilayer nanoparticles enhanced photocurrent in thin film hydrogenated amorphous silicon solar cells

Chung-I HoDan-Ju YehVin‐Cent SuChieh-Hung YangPo‐Chuan YangMing-Yi PuChieh-Hsiung KuanI‐Chun ChengSi‐Chen Lee

Year: 2012 Journal:   Journal of Applied Physics Vol: 112 (2)   Publisher: American Institute of Physics
DOI: 10.1063/1.4739289
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Abstract

A plasmonic-structure incorporated double layer of Au nanoparticles embedded in the transparent conducting oxide at the back-reflector of the hydrogenated amorphous silicon (a-Si:H) solar cells is demonstrated. These devices exhibit an increase of energy conversion efficiency of 18.4% and short-circuit current density of 9.8% while improving fill-factor and without sacrificing open-circuit voltage. The increase in photocurrent is correlated with the enhanced optical absorption in the cell, with improved optical-path-length by a factor of 7 at the wavelength of 800 nm, due to enhanced diffuse scattering of light through resonant plasmon excitations within Au nanoparticles. In addition to enhanced scattering, applying high-work-function Au nanoparticles can improve the work function match at TCO/a-Si:H interface.

Keywords:
Materials science Photocurrent Amorphous silicon Optoelectronics Plasmon Plasmonic solar cell Nanoparticle Silicon Plasmonic nanoparticles Solar cell Work function Amorphous solid Photoconductivity Polymer solar cell Photoactive layer Nanotechnology Layer (electronics) Crystalline silicon Chemistry

Metrics

27
Cited By
3.72
FWCI (Field Weighted Citation Impact)
21
Refs
0.94
Citation Normalized Percentile
Is in top 1%
Is in top 10%

Citation History

Topics

Thin-Film Transistor Technologies
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Silicon Nanostructures and Photoluminescence
Physical Sciences →  Materials Science →  Materials Chemistry
Silicon and Solar Cell Technologies
Physical Sciences →  Engineering →  Electrical and Electronic Engineering

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