Ground and excited state properties of high performance anthocyanidin dyes-sensitized solar cells in the basic solutions

AIP Conf. Proc. (2015) 1677 (120002), 1-5

The aglycones of anthocyanidin dyes were previously reported to form carbinol pseudobase, cis-chalcone, and trans-chalcone due to the basic levels. The further investigations of ground and excited state properties of the dyes were characterized using density functional theory with PCM(UFF)/B3LYP/6-31+G(d,p) level in the basic solutions. However, to the best of our knowledge, the theoretical investigation of their potential photosensitizers has never been reported before. In this paper, the theoretical photovoltaic properties sensitized by dyes have been successfully investigated including the electron injections, the ground and excited state oxidation potentials, the estimated open circuit voltages, and the light harvesting efficiencies. The results prove that the electronic properties represented by dyes’ LUMO-HOMO levels will affect to the photovoltaic performances. Cis-chalcone dye is the best anthocyanidin aglycone dye with the electron injection spontaneity of −1.208 eV, the theoretical open circuit voltage of 1.781 V, and light harvesting efficiency of 56.55% due to the best HOMO-LUMO levels. Moreover, the ethanol solvent slightly contributes to the better cell performance than the water solvent dye because of the better oxidation potential stabilization in the ground state as well as in the excited state. These results are in good agreement with the known experimental report that the aglycones of anthocyanidin dyes in basic solvent are the high potential photosensitizers for dye-sensitized solar cell.

(PDF) Ground and excited state properties of high performance anthocyanidin dyes-sensitized solar cells in the basic solutions. Available from: https://www.researchgate.net/publication/282362276_Ground_and_excited_state_properties_of_high_performance_anthocyanidin_dyes-sensitized_solar_cells_in_the_basic_solutions [accessed Jun 26 2018].

Be the first to comment

Leave a Reply

Your email address will not be published.




This site uses Akismet to reduce spam. Learn how your comment data is processed.