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Research Support, Non-U.S. Gov't
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Porphyrin-incorporated 2D D-A polymers with over 8.5% polymer solar cell efficiency.

Yi-Hsiang Chao, Jyun-Fong Jheng, Jhong-Sian Wu, Kuan-Yi Wu, Hsih-Hao Peng, Ming-Chi Tsai, Chin-Li Wang, Yen-Ni Hsiao, Chien-Lung Wang, Ching-Yao Lin, Chain-Shu Hsu
Advanced Materials 2014 August 14
A copolymerization strategy is developed to utilize porphyrin as a complementary light-harvesting unit (LHU) in D-A polymers. For polymer solar cells (PSCs), the presence of LHUs increases the short-circuit current density (Jsc ) without sacrificing the open-circuit voltage (Voc ) and fill factor (FF). Up to 8.0% power conversion efficiency (PCE) is delivered by PPor-2:PC71 BM single-junction PSCs. A PCE of 8.6% is achieved when a C-PCBSD cathodic interlayer is introduced.

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