An explorative dye solar cell architecture based on the implementation of a 3D micropatterned photoelectrode is disclosed here. An array of conical micropillars has been realized by laser micromachining of photosensitive glass which has been advantageously used as a substrate for deposition of a thin transparent conductive layer and a thick mesoporous TiO2 electrode. A significantly higher photocurrent density has been detected as an effect of the extended overall absorbing area of the micropatterned photoelectrode with respect to a conventional 2D reference photoelectrode. This enhancement can also be partially imputable to a not negligible "waveguide effect" occurring within the glass micropillars. © 2014 American Chemical Society.
3D photoelectrode for dye solar cells realized by laser micromachining of photosensitive glass / Manca, Michele; Beke, Szabolcs; De Marco, Luisa; Pareo, Paola; Qualtieri, Antonio; Cannavale, Alessandro; Brandi, Fernando; Gigli, Giuseppe. - In: JOURNAL OF PHYSICAL CHEMISTRY. C. - ISSN 1932-7447. - 118:30(2014), pp. 17100-17107. [10.1021/jp501254k]
3D photoelectrode for dye solar cells realized by laser micromachining of photosensitive glass
CANNAVALE, Alessandro;
2014-01-01
Abstract
An explorative dye solar cell architecture based on the implementation of a 3D micropatterned photoelectrode is disclosed here. An array of conical micropillars has been realized by laser micromachining of photosensitive glass which has been advantageously used as a substrate for deposition of a thin transparent conductive layer and a thick mesoporous TiO2 electrode. A significantly higher photocurrent density has been detected as an effect of the extended overall absorbing area of the micropatterned photoelectrode with respect to a conventional 2D reference photoelectrode. This enhancement can also be partially imputable to a not negligible "waveguide effect" occurring within the glass micropillars. © 2014 American Chemical Society.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
