Abstract
We have tested simple Graetzel‐type solar cells using semiconductor thin films consisting of TiO2 nanoparticles and some electron injecting dyes. The possibility of using xanthenes (rhodamine 101, fluorescein and 5(6)‐carboxyfluorescein) and selected azo dyes (alizarin yellow R, alizarin yellow 2G and carboxyaesenazo) as sensitizers has been explored. Fluorescence and electronic absorption measurements revealed complex formation between the chosen dyes and the surface of the colloidal TiO2. The apparent association constants (Kapp) of the surface complexes have been estimated and are correlated with the dyeinduced negative shifts of the reduction potential of colloidal TiO2 nanoparticles. Moreover, due to its utmost importance, photostability of the organic dyes in absence and presence of colloidal TiO2 nanoparticles and the influence of the used electrolyte have been examined. The results point to a remarkable enhancement of photostability in the presence of the electrolyte (I3 −/I −), which is attributed to fast regeneration of the neutral dye via the redox couple of the electrolyte. Furthermore, photocurrent action spectrum of the fabricated and tested DSC shows the origin of photoelectric output to be optical absorption of the dye used.
Highlights
Conventional solar cells convert light into electricity by exploiting the photovoltaic effect that exists at semiconductor junctions
Efficient adsorption on TiO2 particles is noticed in case of six dyes, namely; rhodamine 101 (RH), 5(6)Carboxyfluorescein (CFL), Fluorescein (FL), Alizarin yellow R (AR), Alizarin yellow 2G (AG), and Carboxyarsenazo (ASIII)
The paper reports the interaction of sensitizing dyes [xanthenes (rhodamine 101, fluorescein and 5(6)carboxyfluorescein) and selected azo dyes] with TiO2
Summary
Conventional solar cells convert light into electricity by exploiting the photovoltaic effect that exists at semiconductor junctions. They are closely related to the transistors and integrated circuits. To avoid the premature recombination, the semiconductors employed must be highly pure and defect-free The fabrication of this type of cell presents numerous difficulties, preventing the use of such devices for electricity production on the industrial scale. DSC receives strong interest due to their low fabrication cost, light weight, and flexible structure. It has been exploited profitably in electronic devices and photoelectrochromic windows
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