Co-sensitization of porphyrin and metal-free dye for panchromatic dye-sensitized solar cells

Porphyrin dyes are outstanding photosensitizers. However, one of the limitations of using porphyrin dyes for dye-sensitized solar cells (DSSC) is their weak absorption in the 500–600 nm region. Co-sensitization approach with two complementary dyes is an approach to solve this problem. So, to enhance...

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Bibliographic Details
Published in:Journal of the Iranian Chemical Society 2020-02, Vol.17 (2), p.453-459
Main Authors: Parsa, Zahra, Tahay, Pooya, Safari, Nasser
Format: Article
Language:English
Subjects:
Analytical Chemistry
Biochemistry
Chemistry
Chemistry and Materials Science
Circuits
Dye-sensitized solar cells
Dyes
Efficiency
Energy conversion efficiency
Inorganic Chemistry
Molecular structure
Organic Chemistry
Original Paper
Photovoltaic cells
Physical Chemistry
Short circuit currents
Spectra
Spectral sensitivity
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Summary:Porphyrin dyes are outstanding photosensitizers. However, one of the limitations of using porphyrin dyes for dye-sensitized solar cells (DSSC) is their weak absorption in the 500–600 nm region. Co-sensitization approach with two complementary dyes is an approach to solve this problem. So, to enhance the DSSC performance by improving harvesting solar light, we have studied porphyrin dye (LD12) and an organic dye (D149) as the co-sensitizer. This co-sensitized LD12 + D149 device with complementary in their spectral responses shows the power conversion efficiency about 6.8%, which is higher compared with the individual LD12 and D149 solar cells. The obtained photon-to-current conversion efficiency (IPCE) by using this co-sensitized solar cell demonstrates a strong and broad spectral response. This improvement is due to increment of the dyes loading amounts, the fine-matched molecular structures and absorptions of both dyes as the co-sensitization system. Graphic abstract The co-sensitized LD12 + D149-based DSSC with complementary in their spectral responses, increment of the dyes loading amounts and fine-matched molecular structures exhibited a significant enhancement in the short circuit current ( J sc ) and finally the power conversion efficiency (6.8%) relative to the individual single-dye-based DSSC.
ISSN:1735-207X
1735-2428
DOI:10.1007/s13738-019-01782-4