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Facile synthesis of TiO inverse opal electrodes for dye-sensitized solar cells

Langmuir, ISSN: 0743-7463, Vol: 27, Issue: 2, Page: 856-860
2011
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Article Description

Engineering of TiO electrode layers is critical to guaranteeing the photoconversion efficiency of dye-sensitized solar cells (DSSCs). Recently, a novel approach has been introduced for producing TiO electrodes using the inverted structures of colloidal crystals. This paper describes a facile route to producing ordered macroporous electrodes from colloidal crystal templates for DSSCs. Using concentrated colloids dispersed in a volatile medium, the colloidal crystal templates were obtained within a few minutes, and the thickness of the template was easily controlled by changing the quantity of colloidal solution deposited. Here, the effects of the structural properties of the inverse opal TiO electrodes on the photovoltaic parameters of DSSCs were investigated. The photovoltaic parameters were measured as a function of pore ordering and electrode film thickness. Moreover, DSSC applications that used either liquid or viscous polymer electrolyte solutions were investigated to reveal the effects of pore size on performance of an inverse opal TiO electrode. © 2010 American Chemical Society.

Bibliographic Details

Shin, Ju-Hwan; Kang, Ji-Hwan; Jin, Woo-Min; Park, Jong Hyeok; Cho, Young-Sang; Moon, Jun Hyuk

American Chemical Society (ACS)

Materials Science; Physics and Astronomy; Chemistry

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