Highly efficient panchromatic dye-sensitized solar cells: Synergistic interaction of ruthenium sensitizer with novel co-sensitizers carrying different acceptor units
Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acce...
Ausführliche Beschreibung
Gespeichert in:
| Autor*in: |
Babu, Dickson D. [verfasserIn] |
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| Format: |
E-Artikel |
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| Sprache: |
Englisch |
| Erschienen: |
2016transfer abstract |
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| Schlagwörter: |
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| Umfang: |
13 |
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| Übergeordnetes Werk: |
Enthalten in: A multiscale analysis for free vibration of fuzzy fiber-reinforced nanocomposite conical shells - Haghgoo, M. ELSEVIER, 2020, Amsterdam [u.a.] |
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| Übergeordnetes Werk: |
volume:132 ; year:2016 ; pages:316-328 ; extent:13 |
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| DOI / URN: |
10.1016/j.dyepig.2016.05.016 |
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| 245 | 1 | 0 | |a Highly efficient panchromatic dye-sensitized solar cells: Synergistic interaction of ruthenium sensitizer with novel co-sensitizers carrying different acceptor units |
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| 520 | |a Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. | ||
| 520 | |a Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. | ||
| 650 | 7 | |a Indole |2 Elsevier | |
| 650 | 7 | |a Co-sensitizers |2 Elsevier | |
| 650 | 7 | |a Density functional theory |2 Elsevier | |
| 650 | 7 | |a Dye sensitized solar cells |2 Elsevier | |
| 650 | 7 | |a Acceptors |2 Elsevier | |
| 700 | 1 | |a Elsherbiny, Dalia |4 oth | |
| 700 | 1 | |a Cheema, Hammad |4 oth | |
| 700 | 1 | |a El-Shafei, Ahmed |4 oth | |
| 700 | 1 | |a Adhikari, Airody Vasudeva |4 oth | |
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10.1016/j.dyepig.2016.05.016 doi GBVA2016003000018.pica (DE-627)ELV024193283 (ELSEVIER)S0143-7208(16)30206-6 DE-627 ger DE-627 rakwb eng 660 660 DE-600 690 VZ 50.31 bkl 56.11 bkl Babu, Dickson D. verfasserin aut Highly efficient panchromatic dye-sensitized solar cells: Synergistic interaction of ruthenium sensitizer with novel co-sensitizers carrying different acceptor units 2016transfer abstract 13 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. Indole Elsevier Co-sensitizers Elsevier Density functional theory Elsevier Dye sensitized solar cells Elsevier Acceptors Elsevier Elsherbiny, Dalia oth Cheema, Hammad oth El-Shafei, Ahmed oth Adhikari, Airody Vasudeva oth Enthalten in Elsevier Science Haghgoo, M. ELSEVIER A multiscale analysis for free vibration of fuzzy fiber-reinforced nanocomposite conical shells 2020 Amsterdam [u.a.] (DE-627)ELV004269640 volume:132 year:2016 pages:316-328 extent:13 https://doi.org/10.1016/j.dyepig.2016.05.016 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 50.31 Technische Mechanik VZ 56.11 Baukonstruktion VZ AR 132 2016 316-328 13 045F 660 |
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10.1016/j.dyepig.2016.05.016 doi GBVA2016003000018.pica (DE-627)ELV024193283 (ELSEVIER)S0143-7208(16)30206-6 DE-627 ger DE-627 rakwb eng 660 660 DE-600 690 VZ 50.31 bkl 56.11 bkl Babu, Dickson D. verfasserin aut Highly efficient panchromatic dye-sensitized solar cells: Synergistic interaction of ruthenium sensitizer with novel co-sensitizers carrying different acceptor units 2016transfer abstract 13 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. Indole Elsevier Co-sensitizers Elsevier Density functional theory Elsevier Dye sensitized solar cells Elsevier Acceptors Elsevier Elsherbiny, Dalia oth Cheema, Hammad oth El-Shafei, Ahmed oth Adhikari, Airody Vasudeva oth Enthalten in Elsevier Science Haghgoo, M. ELSEVIER A multiscale analysis for free vibration of fuzzy fiber-reinforced nanocomposite conical shells 2020 Amsterdam [u.a.] (DE-627)ELV004269640 volume:132 year:2016 pages:316-328 extent:13 https://doi.org/10.1016/j.dyepig.2016.05.016 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 50.31 Technische Mechanik VZ 56.11 Baukonstruktion VZ AR 132 2016 316-328 13 045F 660 |
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10.1016/j.dyepig.2016.05.016 doi GBVA2016003000018.pica (DE-627)ELV024193283 (ELSEVIER)S0143-7208(16)30206-6 DE-627 ger DE-627 rakwb eng 660 660 DE-600 690 VZ 50.31 bkl 56.11 bkl Babu, Dickson D. verfasserin aut Highly efficient panchromatic dye-sensitized solar cells: Synergistic interaction of ruthenium sensitizer with novel co-sensitizers carrying different acceptor units 2016transfer abstract 13 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. Indole Elsevier Co-sensitizers Elsevier Density functional theory Elsevier Dye sensitized solar cells Elsevier Acceptors Elsevier Elsherbiny, Dalia oth Cheema, Hammad oth El-Shafei, Ahmed oth Adhikari, Airody Vasudeva oth Enthalten in Elsevier Science Haghgoo, M. ELSEVIER A multiscale analysis for free vibration of fuzzy fiber-reinforced nanocomposite conical shells 2020 Amsterdam [u.a.] (DE-627)ELV004269640 volume:132 year:2016 pages:316-328 extent:13 https://doi.org/10.1016/j.dyepig.2016.05.016 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 50.31 Technische Mechanik VZ 56.11 Baukonstruktion VZ AR 132 2016 316-328 13 045F 660 |
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10.1016/j.dyepig.2016.05.016 doi GBVA2016003000018.pica (DE-627)ELV024193283 (ELSEVIER)S0143-7208(16)30206-6 DE-627 ger DE-627 rakwb eng 660 660 DE-600 690 VZ 50.31 bkl 56.11 bkl Babu, Dickson D. verfasserin aut Highly efficient panchromatic dye-sensitized solar cells: Synergistic interaction of ruthenium sensitizer with novel co-sensitizers carrying different acceptor units 2016transfer abstract 13 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. Indole Elsevier Co-sensitizers Elsevier Density functional theory Elsevier Dye sensitized solar cells Elsevier Acceptors Elsevier Elsherbiny, Dalia oth Cheema, Hammad oth El-Shafei, Ahmed oth Adhikari, Airody Vasudeva oth Enthalten in Elsevier Science Haghgoo, M. ELSEVIER A multiscale analysis for free vibration of fuzzy fiber-reinforced nanocomposite conical shells 2020 Amsterdam [u.a.] (DE-627)ELV004269640 volume:132 year:2016 pages:316-328 extent:13 https://doi.org/10.1016/j.dyepig.2016.05.016 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 50.31 Technische Mechanik VZ 56.11 Baukonstruktion VZ AR 132 2016 316-328 13 045F 660 |
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10.1016/j.dyepig.2016.05.016 doi GBVA2016003000018.pica (DE-627)ELV024193283 (ELSEVIER)S0143-7208(16)30206-6 DE-627 ger DE-627 rakwb eng 660 660 DE-600 690 VZ 50.31 bkl 56.11 bkl Babu, Dickson D. verfasserin aut Highly efficient panchromatic dye-sensitized solar cells: Synergistic interaction of ruthenium sensitizer with novel co-sensitizers carrying different acceptor units 2016transfer abstract 13 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. Indole Elsevier Co-sensitizers Elsevier Density functional theory Elsevier Dye sensitized solar cells Elsevier Acceptors Elsevier Elsherbiny, Dalia oth Cheema, Hammad oth El-Shafei, Ahmed oth Adhikari, Airody Vasudeva oth Enthalten in Elsevier Science Haghgoo, M. ELSEVIER A multiscale analysis for free vibration of fuzzy fiber-reinforced nanocomposite conical shells 2020 Amsterdam [u.a.] (DE-627)ELV004269640 volume:132 year:2016 pages:316-328 extent:13 https://doi.org/10.1016/j.dyepig.2016.05.016 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 50.31 Technische Mechanik VZ 56.11 Baukonstruktion VZ AR 132 2016 316-328 13 045F 660 |
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highly efficient panchromatic dye-sensitized solar cells: synergistic interaction of ruthenium sensitizer with novel co-sensitizers carrying different acceptor units |
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Highly efficient panchromatic dye-sensitized solar cells: Synergistic interaction of ruthenium sensitizer with novel co-sensitizers carrying different acceptor units |
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Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. |
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Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. |
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Herein, we report the molecular design, synthesis and photovoltaic performance studies of three new organic co-sensitizers, N 1-3 carrying indole and thiophene units linked to different acceptors/anchoring groups, as co-adsorbents for dye sensitized solar cells. We present the role of anchoring/acceptor units on co-sensitization properties N 1-3 . Their photo-physical and electrochemical results along with molecular geometry, obtained from Density Functional Theory are utilized to rationalize the influence of co-sensitizer structures on photovoltaic properties for DSSCs. We have shown that, the co-sensitization effect is profoundly dependent upon the anchoring/acceptor unit in the co-adsorbents. Among them, N 3 containing 4-aminobenzoic acid shows promising co-sensitization results and exhibits an enhanced efficiency of 9.26%, when co-sensitized with a ruthenium dye, HD-14. Further, the study highlights the importance of molecular matching between the sensitizer and co-sensitizer in enhancing the efficiency. Furthermore, vertical electronic excitations are calculated using time dependent density functional theory studies. |
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