A General Route to Enhance Polymer Solar Cell Performance using Plasmonic Nanoprisms

By embedding various types of colloidal silver nanoprisms into both interfacial layers, significant and general enhancement in the device performances of multiple polymer solar cell systems is demonstrated. The increased device efficiencies are due to the cooperative optical enhancement, resulting i...

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Veröffentlicht in:	Advanced energy materials 2014-06, Vol.4 (9), p.np-n/a
Hauptverfasser:	Yao, Kai, Salvador, Michael, Chueh, Chu-Chen, Xin, Xu-Kai, Xu, Yun-Xiang, deQuilettes, Dane W., Hu, Ting, Chen, Yiwang, Ginger, David S., Jen, Alex K.-Y.
Format:	Artikel
Sprache:	eng
Schlagworte:	Bands Devices Embedded systems interfacial layers Nanostructure Photovoltaic cells plasmonic optical effect Plasmonics polymer solar cells silver nanoprisms Solar cells Wavelengths
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container_issue	9
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container_title	Advanced energy materials
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creator	Yao, Kai Salvador, Michael Chueh, Chu-Chen Xin, Xu-Kai Xu, Yun-Xiang deQuilettes, Dane W. Hu, Ting Chen, Yiwang Ginger, David S. Jen, Alex K.-Y.
description	By embedding various types of colloidal silver nanoprisms into both interfacial layers, significant and general enhancement in the device performances of multiple polymer solar cell systems is demonstrated. The increased device efficiencies are due to the cooperative optical enhancement, resulting in enhanced short‐circuit current densities. These results provide a powerful, general, and tunable means to enhance light harvesting at desired wavelength bands in existing and emerging organic photovoltaic materials.
doi_str_mv	10.1002/aenm.201400206
format	Article
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subjects	Bands Devices Embedded systems interfacial layers Nanostructure Photovoltaic cells plasmonic optical effect Plasmonics polymer solar cells silver nanoprisms Solar cells Wavelengths
title	A General Route to Enhance Polymer Solar Cell Performance using Plasmonic Nanoprisms
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