Charge transport and electron recombination suppression in dye-sensitized solar cells using graphene quantum dots

Charge transport and electron recombination suppression in dye-sensitized solar cells using graphene quantum dots

In this study, TiO 2 photoelectrodes were sensitized in different concentration of Graphene Quantum Dots (GQDs) solution to enhance photovoltaic performance and charge transport of DSSC. The performance of pristine TiO 2 and TiO 2 -GQDs photoelectrodes were compared to investigate the effect of GQDs...

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Main Authors: M. Sharif N.F., Kadir M.Z.A.A., Shafie S., Rashid S.A., Wan Hasan W.Z., Shaban S.
Other Authors: 57207695760
Format: Article
Published: Elsevier B.V. 2023
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spelling my.uniten.dspace-246512023-05-29T15:25:30Z Charge transport and electron recombination suppression in dye-sensitized solar cells using graphene quantum dots M. Sharif N.F. Kadir M.Z.A.A. Shafie S. Rashid S.A. Wan Hasan W.Z. Shaban S. 57207695760 25947297000 23991445600 55041302700 57219410727 57204588013 In this study, TiO 2 photoelectrodes were sensitized in different concentration of Graphene Quantum Dots (GQDs) solution to enhance photovoltaic performance and charge transport of DSSC. The performance of pristine TiO 2 and TiO 2 -GQDs photoelectrodes were compared to investigate the effect of GQDs incorporation in DSSC. It was found GQDs increased light absorption of TiO 2 photoelectrode at visible spectrum in the range of ? = 375 nm to ? = 600 nm, resulting highest current�density, Jsc and photon-to-current conversion efficiency, ?c. Solar cell sensitized in 7.5 mg/ml concentration of GQDs known as (PG 7.5) cell shown the highest reading by 15.49 mA cm ?2 and 6.97%, which indicated an improvement by 28.07% and 70.83% for Jsc and ? compare to pristine TiO 2 DSSC at 12.10 mA cm ?2 and 4.08%. Photoluminescence property own by GQDs may enhance photon emission to visible region when uv-ray excited on solar cell. Thus, generate more electron-hole pairs in the photoelectrode and enhance the photovoltaic parameters of DSSC. PG 7.5 cell also exhibited lowest series resistance (Rs) of 36.60 ?, highest charge transfer resistance (Rct2) of 41.98 ? and electron lifetime of 6.33 ms among other DSSC. These possibly due to suppression of recombination between TiO 2 /dye/electrolyte interfaces. Hence, resulting highest charge collection efficiency (CCE) of 53.42%. The EIS analysis confirmed the PV performance of the best cell of PG 7.5 since the same cell also generated the best photon-current conversion efficiency (PCE). This study revealed GQDs can enhanced photovoltaic parameter and charge collection efficiency of DSSC. � 2019 The Authors Final 2023-05-29T07:25:30Z 2023-05-29T07:25:30Z 2019 Article 10.1016/j.rinp.2019.102171 2-s2.0-85062719177 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85062719177&doi=10.1016%2fj.rinp.2019.102171&partnerID=40&md5=642224655aacd4dd2480457a1170a40d https://irepository.uniten.edu.my/handle/123456789/24651 13 102171 All Open Access, Gold, Green Elsevier B.V. Scopus
institution Universiti Tenaga Nasional
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country Malaysia
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description In this study, TiO 2 photoelectrodes were sensitized in different concentration of Graphene Quantum Dots (GQDs) solution to enhance photovoltaic performance and charge transport of DSSC. The performance of pristine TiO 2 and TiO 2 -GQDs photoelectrodes were compared to investigate the effect of GQDs incorporation in DSSC. It was found GQDs increased light absorption of TiO 2 photoelectrode at visible spectrum in the range of ? = 375 nm to ? = 600 nm, resulting highest current�density, Jsc and photon-to-current conversion efficiency, ?c. Solar cell sensitized in 7.5 mg/ml concentration of GQDs known as (PG 7.5) cell shown the highest reading by 15.49 mA cm ?2 and 6.97%, which indicated an improvement by 28.07% and 70.83% for Jsc and ? compare to pristine TiO 2 DSSC at 12.10 mA cm ?2 and 4.08%. Photoluminescence property own by GQDs may enhance photon emission to visible region when uv-ray excited on solar cell. Thus, generate more electron-hole pairs in the photoelectrode and enhance the photovoltaic parameters of DSSC. PG 7.5 cell also exhibited lowest series resistance (Rs) of 36.60 ?, highest charge transfer resistance (Rct2) of 41.98 ? and electron lifetime of 6.33 ms among other DSSC. These possibly due to suppression of recombination between TiO 2 /dye/electrolyte interfaces. Hence, resulting highest charge collection efficiency (CCE) of 53.42%. The EIS analysis confirmed the PV performance of the best cell of PG 7.5 since the same cell also generated the best photon-current conversion efficiency (PCE). This study revealed GQDs can enhanced photovoltaic parameter and charge collection efficiency of DSSC. � 2019 The Authors
author2 57207695760
author_facet 57207695760
M. Sharif N.F.
Kadir M.Z.A.A.
Shafie S.
Rashid S.A.
Wan Hasan W.Z.
Shaban S.
format Article
author M. Sharif N.F.
Kadir M.Z.A.A.
Shafie S.
Rashid S.A.
Wan Hasan W.Z.
Shaban S.
spellingShingle M. Sharif N.F.
Kadir M.Z.A.A.
Shafie S.
Rashid S.A.
Wan Hasan W.Z.
Shaban S.
Charge transport and electron recombination suppression in dye-sensitized solar cells using graphene quantum dots
author_sort M. Sharif N.F.
title Charge transport and electron recombination suppression in dye-sensitized solar cells using graphene quantum dots
title_short Charge transport and electron recombination suppression in dye-sensitized solar cells using graphene quantum dots
title_full Charge transport and electron recombination suppression in dye-sensitized solar cells using graphene quantum dots
title_fullStr Charge transport and electron recombination suppression in dye-sensitized solar cells using graphene quantum dots
title_full_unstemmed Charge transport and electron recombination suppression in dye-sensitized solar cells using graphene quantum dots
title_sort charge transport and electron recombination suppression in dye-sensitized solar cells using graphene quantum dots
publisher Elsevier B.V.
publishDate 2023
_version_ 1806427290832207872

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