This article describes the synthesis and properties of the first poly(arylene-vinylene)-based sensitizers for application in dye-sensitized solar cells (DSSC). The polymers were prepared by the Suzuki-Heck copolymerization of potassium vinyltrifluoroborate (PVTB) with a mixture of dibromoaryl comonomers designed to obtain macromolecules able to bind onto the photoelectrode by means of carboxyphenylene units. The copolymerization reactions were carried out in the presence of an excess of PVTB to lower the molecular weights of the polymers, which were obtained as soluble materials. The polymers poly[(9,9-didodecyl-2,7-fluorenylene)-vinylene-co-(carboxy-2,5-phenylene) -vinylene] (P1), poly[(9,9-didodecyl-2,7-fluorenylene)-vinylene-co-(carboxy-2,5- phenylene)-vinylene-co-(4,7-benzothiadiazolylene)-vinylene] (P2), and poly[(9,9-didodecyl-2,7-fluorenylene)-vinylene-co-(carboxy-2,5-phenylene) -vinylene-co-2,5-thienylene-vinylene] (P3) were used in DSSC devices, obtaining conversion efficiencies up to 0.88% (P3). © 2010 Wiley Periodicals, Inc.
The suzuki-heck polymerization as a tool for the straightforward obtainment of poly(fluorenylene-vinylene) sensitizers for dye-sensitized solar cells
Grisorio Roberto;Suranna Gian Paolo;
2011
Abstract
This article describes the synthesis and properties of the first poly(arylene-vinylene)-based sensitizers for application in dye-sensitized solar cells (DSSC). The polymers were prepared by the Suzuki-Heck copolymerization of potassium vinyltrifluoroborate (PVTB) with a mixture of dibromoaryl comonomers designed to obtain macromolecules able to bind onto the photoelectrode by means of carboxyphenylene units. The copolymerization reactions were carried out in the presence of an excess of PVTB to lower the molecular weights of the polymers, which were obtained as soluble materials. The polymers poly[(9,9-didodecyl-2,7-fluorenylene)-vinylene-co-(carboxy-2,5-phenylene) -vinylene] (P1), poly[(9,9-didodecyl-2,7-fluorenylene)-vinylene-co-(carboxy-2,5- phenylene)-vinylene-co-(4,7-benzothiadiazolylene)-vinylene] (P2), and poly[(9,9-didodecyl-2,7-fluorenylene)-vinylene-co-(carboxy-2,5-phenylene) -vinylene-co-2,5-thienylene-vinylene] (P3) were used in DSSC devices, obtaining conversion efficiencies up to 0.88% (P3). © 2010 Wiley Periodicals, Inc.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.