1. Ultrafast photodynamics of the indoline dye D149 adsorbed to porous ZnO in dye-sensitized solar cells
- Author
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Kerstin Strauch, Tebello Nyokong, Christoph Richter, Derck Schlettwein, Heinrich Schwoerer, Nadine Heming, Egmont Rohwer, and Christian Litwinski
- Subjects
Chemistry ,Inorganic chemistry ,Electrolyte ,Photochemistry ,Redox ,Atomic and Molecular Physics, and Optics ,Photoinduced electron transfer ,chemistry.chemical_compound ,Dye-sensitized solar cell ,Ultrafast laser spectroscopy ,Indoline ,Physical and Theoretical Chemistry ,Absorption (chemistry) ,Acetonitrile - Abstract
We investigate the ultrafast dynamics of the photoinduced electron transfer between surface-adsorbed indoline D149 dye and porous ZnO as used in the working electrodes of dye-sensitized solar cells. Transient absorption spectroscopy was conducted on the dye in solution, on solid state samples and for the latter in contact to a I(-)/I(3)(-) redox electrolyte typical for dye-sensitized solar cells to elucidate the effect of each component in the observed dynamics. D149 in a solution of 1:1 acetonitrile and tert-butyl alcohol shows excited-state lifetimes of 300±50 ps. This signature is severely quenched when D149 is adsorbed to ZnO, with the fastest component of the decay trace measured at 150±20 fs due to the charge-transfer mechanism. Absorption bands of the oxidized dye molecule were investigated to determine regeneration times which are in excess of 1 ns. The addition of the redox electrolyte to the system results in faster regeneration times, of the order of 1 ns.
- Published
- 2012