Bulk Heterojunction Solar Cells Using Thieno[3,4- c ]pyrrole-4,6-dione and Dithieno[3,2- b :2′,3′- d ]silole Copolymer with a Power Conversion Efficiency of 7.3%

Chu, Ta‐Ya; Lu, Jianping; Beaupré, Serge; Zhang, Yanguang; Pouliot, Jean‐Rémi; Wakim, Salem; Zhou, Jiayun; Leclerc, Mario; Li, Zhao; Ding, Jianfu; Tao, Ye

doi:10.1021/ja200314m

articleJournal of the American Chemical SocietyMar 4, 2011Closed access

Bulk Heterojunction Solar Cells Using Thieno[3,4- c ]pyrrole-4,6-dione and Dithieno[3,2- b :2′,3′- d ]silole Copolymer with a Power Conversion Efficiency of 7.3%

TCTa‐Ya Chu JLJianping Lu SBSerge Beaupré YZYanguang Zhang JPJean‐Rémi Pouliot

Institute for Microstructural Sciences · Université Laval

PubMed

Indexed incrossrefpubmed

Abstract

A new alternating copolymer of dithienosilole and thienopyrrole-4,6-dione (PDTSTPD) possesses both a low optical bandgap (1.73 eV) and a deep highest occupied molecular orbital energy level (5.57 eV). The introduction of branched alkyl chains to the dithienosilole unit was found to be critical for the improvement of the polymer solubility. When blended with PC(71)BM, PDTSTPD exhibited a power conversion efficiency of 7.3% on the photovoltaic devices with an active area of 1 cm(2).

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Topics & keywords

Topics

Keywords

Copolymer
Chemistry
Polymer solar cell
Band gap
Energy conversion efficiency
Pyrrole
Solubility
HOMO/LUMO

UN Sustainable Development Goals

Affordable and clean energy

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