Design of high-performance chlorine type dyes for dye-sensitized solar cells

Intrinsic defect of electronic structure for the chlorine‐type porphyrin 1, which was synthesized for use in dye‐sensitized solar cell (DSSC), is found by theoretical calculation including density functional method (DFT), time‐dependent DFT, and C+/C− function. It is believed that the limited cell p...

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Bibliographic Details
Published in:International journal of quantum chemistry 2014-02, Vol.114 (3), p.222-232
Main Authors: Li, Yuan-chao, Feng, Ya-qing, Wang, Ya-ting, Fan, Chen-cheng, Liu, Xiu-jun, Li, Xiang-gao, Zhang, Bao
Format: Article
Language:English
Subjects:
Chemistry
Defects
density functional method
dye-sensitized solar cell
Dyes
electronic defect
Photovoltaic cells
Physical chemistry
porphyrin
Quantum physics
sensitizer design
Solar energy
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Summary:Intrinsic defect of electronic structure for the chlorine‐type porphyrin 1, which was synthesized for use in dye‐sensitized solar cell (DSSC), is found by theoretical calculation including density functional method (DFT), time‐dependent DFT, and C+/C− function. It is believed that the limited cell performance obtained by using dye 1 as the sensitizer is due to the existence of this electronic defect. To avoid this defect, a series of novel molecules with electron deficient π bridge were designed. The subsequent theoretical calculation indicated that the electron deficient π bridge in the newly designed molecule is quite effective in offsetting the electronic defect observed for dye 1. The parameters for the designed molecules closely associated with open‐circuit voltage and short‐circuit current density including dipole moment of dye vertical to the surface of semiconductor and light‐harvesting efficiency were then evaluated. By comparing these parameters of designed dyes with those of dye 1, we can predict that the DSSC based on dye 4 (2, 6‐cyan benzoic acid as anchoring group) should possess enhanced performance, which would be a valuable theoretical guidance for the practical work. © 2013 Wiley Periodicals, Inc. Dye‐sensitized solar cells offer the prospect of low‐cost and high‐efficiency devices for harvesting solar energy. A novel chlorinetype porphyrin is designed as a remedy for electronic defects in a previously synthesized sensitizer. Quantum chemical calculations are supplemented with calculations of the open‐circuit voltage and short‐circuit current. The obtained values suggest an optimal design for experimental work.
ISSN:0020-7608
1097-461X
DOI:10.1002/qua.24547