Hybrid AgNP –TiO2 thin film based photoanode for dye sensitized solar cell

This article addresses two major issues in the plasmonic dye solar cell; (i) protection of plasmonic nanoparticles from electrolyte attack and (ii) design of appropriate molecular dye to harvest photon near the plasmonic resonance. This report reveals the synthesis of D-π-A carbazole dye and incorporation of plasmonic Ag nanoparticles (AgNPs) into TiO2 film using Ag–TiO2 gel. We have designed and synthesized an efficient D-π-A carbazole dye molecule whose absorption maxima matches the plasmonic resonance of AgNPs leading to augmented near field effect, enhancing photon harvesting property of dye molecule. This article also describes a strategy to incorporate AgNPs into the TiO2 photoelectrode by Ag–TiO2 gel. The plasmonic photoanode was characterized using SEM and optical spectroscopy. Dye solar cells were characterized by J–V characteristics and electrochemical impedance technique in order to take insight into photovoltaic performance and electron transfer kinetic. This engineered DSSC achieves 45% enhancement in current due to the plasmon enhanced near field effect at thin film (3μm).
Source: Perspectives in Science - Category: Science Source Type: research
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