The conversion of solar energy by photovoltaic effect is the most quoted reality in the world of renewable resources. As a feasible option for photovoltaic technology to meet the growing energy demand, dye-sensitized solar cells (DSSCs) have attracted much attention due to their low cost, ease of fabrication and good performance. We have recently proposed polymer electrolyte membranes as a promising strategy to solve the poor long-term stability of standard liquid-state DSSCs. Membranes were prepared by a rapid, energy-saving and environment friendly technique of light-induced polymerization, that can find an appropriate location also in the nascent industrial production plants of third generation photovoltaic cells. In this work, we propose a combined (photo)electrochemical/XPS investigation of the TiO2- and Pt-based electrodes interfaces with a polymer electrolyte membrane whose surface composition has been enriched with a Si-based monomer. The improvement of photovoltaic performance and long-term stability will be showed, emphasizing the positive effect of the gradient-tailored composition of the photopolymer electrolyte.
Electrodes/Electrolyte interfaces in the presence of a Si-modified photopolymer electrolyte: application in DSSCs / Bella, Federico; Sacco, Adriano; DE LA PIERRE DES AMBROIS, Stefano; Castellino, Micaela; Bianco, Stefano; Bongiovanni, Roberta Maria. - ELETTRONICO. - (2014), pp. 1026-1026. (Intervento presentato al convegno XXV Congresso Nazionale della Società Chimica Italiana - SCI 2014 tenutosi a Rende (Italy) nel 07-12 Settembre 2014).
Electrodes/Electrolyte interfaces in the presence of a Si-modified photopolymer electrolyte: application in DSSCs
BELLA, FEDERICO;SACCO, ADRIANO;DE LA PIERRE DES AMBROIS, STEFANO;CASTELLINO, MICAELA;BIANCO, STEFANO;BONGIOVANNI, Roberta Maria
2014
Abstract
The conversion of solar energy by photovoltaic effect is the most quoted reality in the world of renewable resources. As a feasible option for photovoltaic technology to meet the growing energy demand, dye-sensitized solar cells (DSSCs) have attracted much attention due to their low cost, ease of fabrication and good performance. We have recently proposed polymer electrolyte membranes as a promising strategy to solve the poor long-term stability of standard liquid-state DSSCs. Membranes were prepared by a rapid, energy-saving and environment friendly technique of light-induced polymerization, that can find an appropriate location also in the nascent industrial production plants of third generation photovoltaic cells. In this work, we propose a combined (photo)electrochemical/XPS investigation of the TiO2- and Pt-based electrodes interfaces with a polymer electrolyte membrane whose surface composition has been enriched with a Si-based monomer. The improvement of photovoltaic performance and long-term stability will be showed, emphasizing the positive effect of the gradient-tailored composition of the photopolymer electrolyte.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2563137
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