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Graphene quantum-dot-doped polypyrrole counter electrode for high-performance dye-sensitized solar cells.

ACS applied materials & interfaces (2013-03-02)
Lijia Chen, Chun Xian Guo, Qiaoming Zhang, Yanlian Lei, Jiale Xie, Shujing Ee, Guanhong Guai, Qunliang Song, Chang Ming Li
RESUMEN

Herein graphene quantum dot (GQD), a graphene material with lateral dimension less than 100 nm, is explored to dope PPy on F-doped tin oxide glass as an efficient counter electrode for high-performance dye-sensitized solar cells (DSSCs). The GQDs-doped PPy film has a porous structure in comparison to the densely structured plain PPy, and displays higher catalytic current density and lower charge transfer resistance than the latter toward I3(-)/I(-) redox reaction. The highest power conversion efficiency (5.27%) for DSSCs is achieved with PPy doped with10% GQDs, which is comparable to that of Pt counter electrode-based DSSCs. This work provides an inexpensive alternative to replace platinum for DSSCs.

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Sigma-Aldrich
Polypyrrole, conductivity 10-50 S/cm (pressed pellet)
Sigma-Aldrich
Polypyrrole, doped, conductivity 30 S/cm (bulk), extent of labeling: 20 wt. % loading, composite with carbon black
Sigma-Aldrich
Polypyrrole, doped, conductivity 0.5-1.5 S/cm (pressed pellet, typical), extent of labeling: ~5 wt. % loading, coated on titanium dioxide