Cosensitization process effect of D-A-Ï-A featured dyes on photovoltaic performances

Cosensitization process effect of D-A-Ï-A featured dyes on photovoltaic performances

Cosensitization based on two or multiple dyes as âdye cocktailsâ can hit the target on compensating and broadening light-harvesting region. Two indoline D-A-Ï-A motif sensitizers (WS-2 and WS-39) that possess similar light response area but distinctly reversed feature in photovoltaic performance are...

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Main Authors: Bo Liu, Qipeng Chai, Weiwei Zhang, Wenjun Wu, He Tian, Wei-Hong Zhu
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2016-04-01
Series:Green Energy & Environment
Online Access:http://www.sciencedirect.com/science/article/pii/S2468025716300188
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spelling doaj-3714413000644b6dac939ab03894837a2021-03-02T10:39:48ZengKeAi Communications Co., Ltd.Green Energy & Environment2468-02572016-04-01118490Cosensitization process effect of D-A-Ï-A featured dyes on photovoltaic performancesBo Liu0Qipeng Chai1Weiwei Zhang2Wenjun Wu3He Tian4Wei-Hong Zhu5Shanghai Key Laboratory of Functional Materials Chemistry, Key Laboratory for Advanced Materials and Institute of Fine Chemicals, Collaborative Innovation Center for Coal Based Energy (i-CCE), School of Chemistry and Molecular Engineering, East China University of Science and Technology, Shanghai 200237, China; College of Chemistry and Material Science, Hebei Normal University, No. 20, East Road of Nan Er Huan, Shijiazhuang 050023, ChinaShanghai Key Laboratory of Functional Materials Chemistry, Key Laboratory for Advanced Materials and Institute of Fine Chemicals, Collaborative Innovation Center for Coal Based Energy (i-CCE), School of Chemistry and Molecular Engineering, East China University of Science and Technology, Shanghai 200237, ChinaShanghai Key Laboratory of Functional Materials Chemistry, Key Laboratory for Advanced Materials and Institute of Fine Chemicals, Collaborative Innovation Center for Coal Based Energy (i-CCE), School of Chemistry and Molecular Engineering, East China University of Science and Technology, Shanghai 200237, ChinaShanghai Key Laboratory of Functional Materials Chemistry, Key Laboratory for Advanced Materials and Institute of Fine Chemicals, Collaborative Innovation Center for Coal Based Energy (i-CCE), School of Chemistry and Molecular Engineering, East China University of Science and Technology, Shanghai 200237, ChinaShanghai Key Laboratory of Functional Materials Chemistry, Key Laboratory for Advanced Materials and Institute of Fine Chemicals, Collaborative Innovation Center for Coal Based Energy (i-CCE), School of Chemistry and Molecular Engineering, East China University of Science and Technology, Shanghai 200237, ChinaShanghai Key Laboratory of Functional Materials Chemistry, Key Laboratory for Advanced Materials and Institute of Fine Chemicals, Collaborative Innovation Center for Coal Based Energy (i-CCE), School of Chemistry and Molecular Engineering, East China University of Science and Technology, Shanghai 200237, China; Corresponding author.Cosensitization based on two or multiple dyes as âdye cocktailsâ can hit the target on compensating and broadening light-harvesting region. Two indoline D-A-Ï-A motif sensitizers (WS-2 and WS-39) that possess similar light response area but distinctly reversed feature in photovoltaic performance are selected as the specific cosensitization couple. That is, WS-2 shows quite high photocurrent but low photovoltage, and WS-39 gives relatively low photocurrent but quite high photovoltage. Due to the obvious âbarrel effectâ, both dyes show medium PCE around 8.50%. In contrast with the previous cosensitization strategy mostly focused on the compensation of light response region, herein we perform different cosensitization sequence, for taking insight into the balance of photocurrent and photovoltage, and achieving the synergistic improvement in power conversion efficiency (PCE). Electronic impedance spectra (EIS) indicate that exploiting dye WS-39 with high VOC value as the primary sensitizer can repress the charge recombination more effectively, resulting in superior VOC rather than using dye WS-2 with high JSC as the primary sensitizer. As a consequence, a high PCE value of 9.48% is obtained with the delicate cosensitization using WS-39 as primary dye and WS-2 as accessory dye, which is higher than the corresponding devices sensitized by each individual dye (around 8.48â8.67%). It provides an effective optimizing strategy of cosensitization how to combine the individual dye advantages for developing highly efficient solar cells. Keywords: Indoline dye, Cosensitization, Adsorption sequence, Charge recombination, Photovoltaic performanceshttp://www.sciencedirect.com/science/article/pii/S2468025716300188
collection DOAJ
language English
format Article
sources DOAJ
author Bo Liu
Qipeng Chai
Weiwei Zhang
Wenjun Wu
He Tian
Wei-Hong Zhu
spellingShingle Bo Liu
Qipeng Chai
Weiwei Zhang
Wenjun Wu
He Tian
Wei-Hong Zhu
Cosensitization process effect of D-A-Ï-A featured dyes on photovoltaic performances
Green Energy & Environment
author_facet Bo Liu
Qipeng Chai
Weiwei Zhang
Wenjun Wu
He Tian
Wei-Hong Zhu
author_sort Bo Liu
title Cosensitization process effect of D-A-Ï-A featured dyes on photovoltaic performances
title_short Cosensitization process effect of D-A-Ï-A featured dyes on photovoltaic performances
title_full Cosensitization process effect of D-A-Ï-A featured dyes on photovoltaic performances
title_fullStr Cosensitization process effect of D-A-Ï-A featured dyes on photovoltaic performances
title_full_unstemmed Cosensitization process effect of D-A-Ï-A featured dyes on photovoltaic performances
title_sort cosensitization process effect of d-a-ï-a featured dyes on photovoltaic performances
publisher KeAi Communications Co., Ltd.
series Green Energy & Environment
issn 2468-0257
publishDate 2016-04-01
description Cosensitization based on two or multiple dyes as âdye cocktailsâ can hit the target on compensating and broadening light-harvesting region. Two indoline D-A-Ï-A motif sensitizers (WS-2 and WS-39) that possess similar light response area but distinctly reversed feature in photovoltaic performance are selected as the specific cosensitization couple. That is, WS-2 shows quite high photocurrent but low photovoltage, and WS-39 gives relatively low photocurrent but quite high photovoltage. Due to the obvious âbarrel effectâ, both dyes show medium PCE around 8.50%. In contrast with the previous cosensitization strategy mostly focused on the compensation of light response region, herein we perform different cosensitization sequence, for taking insight into the balance of photocurrent and photovoltage, and achieving the synergistic improvement in power conversion efficiency (PCE). Electronic impedance spectra (EIS) indicate that exploiting dye WS-39 with high VOC value as the primary sensitizer can repress the charge recombination more effectively, resulting in superior VOC rather than using dye WS-2 with high JSC as the primary sensitizer. As a consequence, a high PCE value of 9.48% is obtained with the delicate cosensitization using WS-39 as primary dye and WS-2 as accessory dye, which is higher than the corresponding devices sensitized by each individual dye (around 8.48â8.67%). It provides an effective optimizing strategy of cosensitization how to combine the individual dye advantages for developing highly efficient solar cells. Keywords: Indoline dye, Cosensitization, Adsorption sequence, Charge recombination, Photovoltaic performances
url http://www.sciencedirect.com/science/article/pii/S2468025716300188
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AT qipengchai cosensitizationprocesseffectofdaiafeatureddyesonphotovoltaicperformances
AT weiweizhang cosensitizationprocesseffectofdaiafeatureddyesonphotovoltaicperformances
AT wenjunwu cosensitizationprocesseffectofdaiafeatureddyesonphotovoltaicperformances
AT hetian cosensitizationprocesseffectofdaiafeatureddyesonphotovoltaicperformances
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