Towards achieving improved efficiency using newly designed dye-sensitized solar cell devices engineered with dye-anchored counter electrodes

Dye anchored counter electrode (DACE) based DSSC devices were successfully constructed using Y351-S and TP-DTP dyes and their photovoltaic performances were compared with the standard DSSCs. Increased IPCE and Jsc were observed for CO-DACE compared to the standard DSSCs, portraying the role of dye a...

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Published inJournal of industrial and engineering chemistry (Seoul, Korea) Vol. 99; pp. 117 - 125
Main Authors Cha, Ha Lim, Seok, Seungyoon, Kim, Hyun Jo, Thogiti, Suresh, Goud, Burragoni Sravanthi, Shin, Gyuho, Eun, Lee Ji, Koyyada, Ganesh, Kim, Jae Hong
Format Journal Article
LanguageEnglish
Published Elsevier B.V 25.07.2021
한국공업화학회
Subjects
Co-sensitizer
Dithionopyrrole
Dye loading
Porphyrin
Power conversion efficiency
화학공학
Co-sensitizer
Dye loading
Porphyrin
Dithionopyrrole
Power conversion efficiency
Online AccessGet full text
ISSN1226-086X
1876-794X
DOI10.1016/j.jiec.2021.04.014

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Abstract Dye anchored counter electrode (DACE) based DSSC devices were successfully constructed using Y351-S and TP-DTP dyes and their photovoltaic performances were compared with the standard DSSCs. Increased IPCE and Jsc were observed for CO-DACE compared to the standard DSSCs, portraying the role of dye anchored counter electrode in enhancing the efficiency of CO-DACE. [Display omitted] Partial absorption of the solar spectrum is one of the key limitations of dye-sensitized solar cells (DSSCs). In an attempt to address this issue, we have developed co-sensitized working electrode based dye anchored counter electrode (DACE) DSSC strategy to achieve panchromatic absorption using multiple dyes. Herein, we have synthesized a dithionopyrrole based TP–DTP dye and a porphyrin-based Y351-S dye and explored to a new type of DSSCs modified with DACE. To realize the effect of DACE electrode on the DSSC efficiency, we have fabricated five different DSSCs devices namely, S-DSSC1, S-DSSC2, S-DACE, CO-DSSC, and CO-DACE using these synthesized dyes and compared their performances systematically. In addition, the detailed impedance and stepped light-induced transient measurements of the photocurrent and voltage (SLIM-PCV) experiments are also performed to assess the charge transfer resistance and charge collection efficiency of these devices. The highest efficiency of 8.72±0.15% is observed for the CO-DACE-based devices, which is higher than the traditional DSSCs made of single dye-sensitized (S-DSSC1 and S-DSSC2), and co-sensitized DSSC (CO-DSSC). It can be attributed to the enhanced incident photon to current conversion efficiency (IPCE) and short circuit current (Jsc) which clearly portray the advantage of DACE electrode in harvesting maximum incident light.
AbstractList Partial absorption of the solar spectrum is one of the key limitations of dye-sensitized solar cells (DSSCs). In an attempt to address this issue, we have developed co-sensitized working electrode based dyeanchored counter electrode (DACE) DSSC strategy to achieve panchromatic absorption using multipledyes. Herein, we have synthesized a dithionopyrrole based TP–DTP dye and a porphyrin-based Y351-Sdye and explored to a new type of DSSCs modified with DACE. To realize the effect of DACE electrode onthe DSSC efficiency, we have fabricatedfive different DSSCs devices namely, S-DSSC1, S-DSSC2, S-DACE,CO-DSSC, and CO-DACE using these synthesized dyes and compared their performances systematically. In addition, the detailed impedance and stepped light-induced transient measurements of thephotocurrent and voltage (SLIM-PCV) experiments are also performed to assess the charge transferresistance and charge collection efficiency of these devices. The highest efficiency of 8.72 0.15% isobserved for the CO-DACE-based devices, which is higher than the traditional DSSCs made of single dye-sensitized (S-DSSC1 and S-DSSC2), and co-sensitized DSSC (CO-DSSC). It can be attributed to theenhanced incident photon to current conversion efficiency (IPCE) and short circuit current (Jsc) whichclearly portray the advantage of DACE electrode in harvesting maximum incident light. KCI Citation Count: 5
Dye anchored counter electrode (DACE) based DSSC devices were successfully constructed using Y351-S and TP-DTP dyes and their photovoltaic performances were compared with the standard DSSCs. Increased IPCE and Jsc were observed for CO-DACE compared to the standard DSSCs, portraying the role of dye anchored counter electrode in enhancing the efficiency of CO-DACE. [Display omitted] Partial absorption of the solar spectrum is one of the key limitations of dye-sensitized solar cells (DSSCs). In an attempt to address this issue, we have developed co-sensitized working electrode based dye anchored counter electrode (DACE) DSSC strategy to achieve panchromatic absorption using multiple dyes. Herein, we have synthesized a dithionopyrrole based TP–DTP dye and a porphyrin-based Y351-S dye and explored to a new type of DSSCs modified with DACE. To realize the effect of DACE electrode on the DSSC efficiency, we have fabricated five different DSSCs devices namely, S-DSSC1, S-DSSC2, S-DACE, CO-DSSC, and CO-DACE using these synthesized dyes and compared their performances systematically. In addition, the detailed impedance and stepped light-induced transient measurements of the photocurrent and voltage (SLIM-PCV) experiments are also performed to assess the charge transfer resistance and charge collection efficiency of these devices. The highest efficiency of 8.72±0.15% is observed for the CO-DACE-based devices, which is higher than the traditional DSSCs made of single dye-sensitized (S-DSSC1 and S-DSSC2), and co-sensitized DSSC (CO-DSSC). It can be attributed to the enhanced incident photon to current conversion efficiency (IPCE) and short circuit current (Jsc) which clearly portray the advantage of DACE electrode in harvesting maximum incident light.
Author Eun, Lee Ji
Goud, Burragoni Sravanthi
Shin, Gyuho
Cha, Ha Lim
Seok, Seungyoon
Kim, Jae Hong
Thogiti, Suresh
Kim, Hyun Jo
Koyyada, Ganesh
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Keywords Co-sensitizer
Dye loading
Porphyrin
Dithionopyrrole
Power conversion efficiency
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Snippet Dye anchored counter electrode (DACE) based DSSC devices were successfully constructed using Y351-S and TP-DTP dyes and their photovoltaic performances were...
Partial absorption of the solar spectrum is one of the key limitations of dye-sensitized solar cells (DSSCs). In an attempt to address this issue, we have...
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StartPage 117
SubjectTerms Co-sensitizer
Dithionopyrrole
Dye loading
Porphyrin
Power conversion efficiency
화학공학
Title Towards achieving improved efficiency using newly designed dye-sensitized solar cell devices engineered with dye-anchored counter electrodes
URI https://dx.doi.org/10.1016/j.jiec.2021.04.014
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