Efficient and stable plastic dye-sensitized solar cells based on a high light-harvesting ruthenium sensitizer

A high light-harvesting ability heteroleptic ruthenium complex dye, SJW-E1, was examined as a sensitizer for the plastic dye-sensitized solar cells (DSSCs) constructed by a low-temperature electrode preparation method using binder-free TiO(2) paste and an ITO-PEN substrate. The effects of a TiO(x) b...

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Veröffentlicht in:	Journal of materials chemistry 2009-07, Vol.19 (28), p.5009-5015
Hauptverfasser:	LEE, Kun-Mu, WU, Shi-Jhang, CHEN, Chia-Yuan, WU, Chun-Guey, IKEGAMI, Masashi, MIYOSHI, Kozo, MIYASAKA, Tsutomu, HO, Kuo-Chuan
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Sprache:	eng
Schlagworte:	Applied sciences Energy Exact sciences and technology Natural energy Photovoltaic conversion Solar cells. Photoelectrochemical cells Solar energy
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container_title	Journal of materials chemistry
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creator	LEE, Kun-Mu WU, Shi-Jhang CHEN, Chia-Yuan WU, Chun-Guey IKEGAMI, Masashi MIYOSHI, Kozo MIYASAKA, Tsutomu HO, Kuo-Chuan
description	A high light-harvesting ability heteroleptic ruthenium complex dye, SJW-E1, was examined as a sensitizer for the plastic dye-sensitized solar cells (DSSCs) constructed by a low-temperature electrode preparation method using binder-free TiO(2) paste and an ITO-PEN substrate. The effects of a TiO(x) buffer layer, electrolyte composition and co-adsorbents on the cell performance as well as the cell long-term stability were investigated. The TiO(x) buffer layer has not only enhanced the adhesion between TiO(2) thin film and the ITO/PEN substrate but also reduced the electron recombination, resulting in the improvement of the fill factor (FF) and therefore the photovoltaic performance of the solar cells. The optimized solar cell based on SJW-E1 dye showed an efficiency of 6.31%. Furthermore, the plastic DSSCs based on the SJW-E1 dye shows a better cell stability compared to that based on N719 dye after a full sunlight soaking (at ca. 50 'C) for 500 h. These results demonstrated that the flexible DSSCs based on the high light-harvesting, well-functionalized heteroleptic ruthenium dye could achieve both high performance and good stability.
doi_str_mv	10.1039/b903852c
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The effects of a TiO(x) buffer layer, electrolyte composition and co-adsorbents on the cell performance as well as the cell long-term stability were investigated. The TiO(x) buffer layer has not only enhanced the adhesion between TiO(2) thin film and the ITO/PEN substrate but also reduced the electron recombination, resulting in the improvement of the fill factor (FF) and therefore the photovoltaic performance of the solar cells. The optimized solar cell based on SJW-E1 dye showed an efficiency of 6.31%. Furthermore, the plastic DSSCs based on the SJW-E1 dye shows a better cell stability compared to that based on N719 dye after a full sunlight soaking (at ca. 50 'C) for 500 h. 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The effects of a TiO(x) buffer layer, electrolyte composition and co-adsorbents on the cell performance as well as the cell long-term stability were investigated. The TiO(x) buffer layer has not only enhanced the adhesion between TiO(2) thin film and the ITO/PEN substrate but also reduced the electron recombination, resulting in the improvement of the fill factor (FF) and therefore the photovoltaic performance of the solar cells. The optimized solar cell based on SJW-E1 dye showed an efficiency of 6.31%. Furthermore, the plastic DSSCs based on the SJW-E1 dye shows a better cell stability compared to that based on N719 dye after a full sunlight soaking (at ca. 50 'C) for 500 h. 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subjects	Applied sciences Energy Exact sciences and technology Natural energy Photovoltaic conversion Solar cells. Photoelectrochemical cells Solar energy
title	Efficient and stable plastic dye-sensitized solar cells based on a high light-harvesting ruthenium sensitizer
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