The improvement of photovoltaic performance of quinoline-based dye-sensitized solar cells by modification of the auxiliary acceptors

[Display omitted] •Three novel D-A-π-A organic dyes have been synthesized for DSSCs.•Adding auxiliary acceptor to the dye skeleton increases light harvesting ability.•The dye containing unit of benzothiadiazole showed the highest efficiency (5.21 %).•Benzotriazole auxiliary acceptor suppresses the i...

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Published in:Journal of photochemistry and photobiology. A, Chemistry. Chemistry., 2021-01, Vol.404, p.112936, Article 112936
Main Authors: Arslan, Barış Seçkin, Arkan, Burcu, Gezgin, Merve, Derin, Yavuz, Avcı, Davut, Tutar, Ahmet, Nebioğlu, Mehmet, Şişman, İlkay
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Language:English
Subjects:
Auxiliary acceptor
Benzothiadiazole
D-A-π-A organic dyes
Dye-sensitized solar cells
N-ethylhexylbenzotriazole
Quinoline
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container_title Journal of photochemistry and photobiology. A, Chemistry.
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creator Arslan, Barış Seçkin
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description [Display omitted] •Three novel D-A-π-A organic dyes have been synthesized for DSSCs.•Adding auxiliary acceptor to the dye skeleton increases light harvesting ability.•The dye containing unit of benzothiadiazole showed the highest efficiency (5.21 %).•Benzotriazole auxiliary acceptor suppresses the intermolecular aggregation. Three new dyes containing diphenylamine as electron donor, benzene (BIM1), benzothiadiazole (BTD) (BIM2) and N-ethylhexylbenzotriazole (BTZ) (BIM3) as auxiliary electron acceptors, quinoline as π-bridge and cyanoacrylic acid as anchoring group were synthesized in D-A-π-A structure for use in dye-sensitized solar cells (DSSCs). The optical, electrochemical, theoretical and photovoltaic methods were performed to understand the auxiliary acceptor influence on the performance of these dyes. Compared to the other dyes, the DSSC with dye BIM3 slightly increases the open circuit voltage (Voc) owing to the retardation of charge recombination by BTZ. However, replacement of benzene or BTZ by BTD unit causes a large red shift of the absorption spectra, leading BIM2 cell to produce the highest short circuit current density (Jsc). Thus, among the three D-A-π-A dyes, BIM2 is determined to be the most efficient dye, which reached a Voc of 0.627 V and Jsc of 11.53 mA cm–2, corresponding to an overall power conversion efficiency of 5.21 % in the presence of chenodeoxycholic acid (CDCA) as the coadsorbent. These results suggest that the insertion of benzothiadiazole as auxiliary acceptor into quinoline-based D-A-π-A dyes can effectively improve photovoltaic performance of DSSCs.
doi_str_mv 10.1016/j.jphotochem.2020.112936
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Three new dyes containing diphenylamine as electron donor, benzene (BIM1), benzothiadiazole (BTD) (BIM2) and N-ethylhexylbenzotriazole (BTZ) (BIM3) as auxiliary electron acceptors, quinoline as π-bridge and cyanoacrylic acid as anchoring group were synthesized in D-A-π-A structure for use in dye-sensitized solar cells (DSSCs). The optical, electrochemical, theoretical and photovoltaic methods were performed to understand the auxiliary acceptor influence on the performance of these dyes. Compared to the other dyes, the DSSC with dye BIM3 slightly increases the open circuit voltage (Voc) owing to the retardation of charge recombination by BTZ. However, replacement of benzene or BTZ by BTD unit causes a large red shift of the absorption spectra, leading BIM2 cell to produce the highest short circuit current density (Jsc). 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A, Chemistry.</title><description>[Display omitted] •Three novel D-A-π-A organic dyes have been synthesized for DSSCs.•Adding auxiliary acceptor to the dye skeleton increases light harvesting ability.•The dye containing unit of benzothiadiazole showed the highest efficiency (5.21 %).•Benzotriazole auxiliary acceptor suppresses the intermolecular aggregation. Three new dyes containing diphenylamine as electron donor, benzene (BIM1), benzothiadiazole (BTD) (BIM2) and N-ethylhexylbenzotriazole (BTZ) (BIM3) as auxiliary electron acceptors, quinoline as π-bridge and cyanoacrylic acid as anchoring group were synthesized in D-A-π-A structure for use in dye-sensitized solar cells (DSSCs). The optical, electrochemical, theoretical and photovoltaic methods were performed to understand the auxiliary acceptor influence on the performance of these dyes. 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A, Chemistry.</jtitle><date>2021-01-01</date><risdate>2021</risdate><volume>404</volume><spage>112936</spage><pages>112936-</pages><artnum>112936</artnum><issn>1010-6030</issn><eissn>1873-2666</eissn><abstract>[Display omitted] •Three novel D-A-π-A organic dyes have been synthesized for DSSCs.•Adding auxiliary acceptor to the dye skeleton increases light harvesting ability.•The dye containing unit of benzothiadiazole showed the highest efficiency (5.21 %).•Benzotriazole auxiliary acceptor suppresses the intermolecular aggregation. Three new dyes containing diphenylamine as electron donor, benzene (BIM1), benzothiadiazole (BTD) (BIM2) and N-ethylhexylbenzotriazole (BTZ) (BIM3) as auxiliary electron acceptors, quinoline as π-bridge and cyanoacrylic acid as anchoring group were synthesized in D-A-π-A structure for use in dye-sensitized solar cells (DSSCs). 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subjects Auxiliary acceptor
Benzothiadiazole
D-A-π-A organic dyes
Dye-sensitized solar cells
N-ethylhexylbenzotriazole
Quinoline
title The improvement of photovoltaic performance of quinoline-based dye-sensitized solar cells by modification of the auxiliary acceptors
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