The electrolyte used in dye-sensitized solar cells (DSSCs) plays a key role in the process of current generation, and hence the analysis of charge-transfer mechanisms both in its bulk and at its interfaces with other materials is of fundamental importance. Because of solvent confinement, gel polymer electrolytes are more practical and convenient to use with respect to liquid electrolytes, but in-depth studies are still necessary to optimize their performances. In this work, gel polymer electrolytes of general formulation polyacrylonitrile (PAN)/ethylene carbonate (EC)/propylene carbonate (PC)/MI, where M+ is a cation in the alkaline series Li-Cs, were prepared and used in DSSCs. Their ionic conductivities were determined by impedance analysis, and their temperature dependence showed Arrhenius behavior within the experimental window. FT-IR studies of the electrolytes confirmed the prevalence of EC coordination around the cations. Photo-anodes were prepared by adsorbing organic sensitizer D35 on nanocrystalline TiO2 thin films, and employed to build DSSCs with the gel electrolytes. Nanosecond transient spectroscopy results indicated a slightly faster dye regeneration process in the presence of large cations (Cs+, Rb+). Moreover, a negative shift of TiO2 flat-band potential with the decreasing charge density of the cations (increasing size) was observed through Mott-Schottky analysis. In general, results indicate that cell efficiencies are mostly governed by photocurrent values, in turn depending on the conductivity increase with cation size. Accordingly, the best result was obtained with theCs+-containing cell, although in this case a slight reduction of photovoltage compared to Rb+ was observed.

Bettucci, O., Saavedra Becerril, V., Bandara, T., Furlani, M., Abrahamsson, M., Mellander, B., et al. (2018). Organic dye-sensitized solar cells containing alkaline iodide-based gel polymer electrolytes: influence of cation size. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 20(2), 1276-1285 [10.1039/c7cp07544h].

Organic dye-sensitized solar cells containing alkaline iodide-based gel polymer electrolytes: influence of cation size

Bettucci, Ottavia;
2018

Abstract

The electrolyte used in dye-sensitized solar cells (DSSCs) plays a key role in the process of current generation, and hence the analysis of charge-transfer mechanisms both in its bulk and at its interfaces with other materials is of fundamental importance. Because of solvent confinement, gel polymer electrolytes are more practical and convenient to use with respect to liquid electrolytes, but in-depth studies are still necessary to optimize their performances. In this work, gel polymer electrolytes of general formulation polyacrylonitrile (PAN)/ethylene carbonate (EC)/propylene carbonate (PC)/MI, where M+ is a cation in the alkaline series Li-Cs, were prepared and used in DSSCs. Their ionic conductivities were determined by impedance analysis, and their temperature dependence showed Arrhenius behavior within the experimental window. FT-IR studies of the electrolytes confirmed the prevalence of EC coordination around the cations. Photo-anodes were prepared by adsorbing organic sensitizer D35 on nanocrystalline TiO2 thin films, and employed to build DSSCs with the gel electrolytes. Nanosecond transient spectroscopy results indicated a slightly faster dye regeneration process in the presence of large cations (Cs+, Rb+). Moreover, a negative shift of TiO2 flat-band potential with the decreasing charge density of the cations (increasing size) was observed through Mott-Schottky analysis. In general, results indicate that cell efficiencies are mostly governed by photocurrent values, in turn depending on the conductivity increase with cation size. Accordingly, the best result was obtained with theCs+-containing cell, although in this case a slight reduction of photovoltage compared to Rb+ was observed.
Articolo in rivista - Articolo scientifico
dye-sensitized solar cells, gel electrolytes, emerging photovoltaics, renewable energies
English
11-dic-2017
2018
20
2
1276
1285
reserved
Bettucci, O., Saavedra Becerril, V., Bandara, T., Furlani, M., Abrahamsson, M., Mellander, B., et al. (2018). Organic dye-sensitized solar cells containing alkaline iodide-based gel polymer electrolytes: influence of cation size. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 20(2), 1276-1285 [10.1039/c7cp07544h].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/414765
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