Nanostructured Photovoltaic Cell of the Type Titanium Dioxide, Cadmium Sulfide Thin Coating, and Copper Thiocyanate Showing High Quantum Efficiency

Nanostructured photovoltaic devices were fabricated using a porous n-type TiO2 film, a thin layer of CdS acting as the absorber, and a transparent p-type CuSCN filling the pores. The cell showed an internal quantum efficiency of ∼100% and significant cell efficiency of 1.3% at 1 sun, as well as high...

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Veröffentlicht in:	Chemistry of materials 2006-03, Vol.18 (6), p.1688-1696
Hauptverfasser:	Larramona, Gerardo, Choné, Christophe, Jacob, Alain, Sakakura, Daisuke, Delatouche, Bruno, Péré, Daniel, Cieren, Xavier, Nagino, Masashi, Bayón, Rocío
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container_title	Chemistry of materials
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creator	Larramona, Gerardo Choné, Christophe Jacob, Alain Sakakura, Daisuke Delatouche, Bruno Péré, Daniel Cieren, Xavier Nagino, Masashi Bayón, Rocío
description	Nanostructured photovoltaic devices were fabricated using a porous n-type TiO2 film, a thin layer of CdS acting as the absorber, and a transparent p-type CuSCN filling the pores. The cell showed an internal quantum efficiency of ∼100% and significant cell efficiency of 1.3% at 1 sun, as well as high photovoltage (0.85 V) and a filling factor of 0.65. Though the cell concept was already proposed by others, this cell clearly shows a significant performance and it demonstrates the potentiality of such cells made with very thin absorber layers (100). Description of component characterization and explanation of identified issues are presented.
doi_str_mv	10.1021/cm052819n
format	Article
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title	Nanostructured Photovoltaic Cell of the Type Titanium Dioxide, Cadmium Sulfide Thin Coating, and Copper Thiocyanate Showing High Quantum Efficiency
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