Novel Dimethylmethylene-Bridged Triphenylamine-PDI Acceptor for Bulk-Heterojunction Organic Solar Cells

Yu Xiong; Bo Wu; Xiaoyan Zheng; Zheng Zhao; Ping Deng; Ming Lin; Benzhong Tang; Beng S Ong

doi:10.1002/advs.201700110

Novel Dimethylmethylene-Bridged Triphenylamine-PDI Acceptor for Bulk-Heterojunction Organic Solar Cells

Adv Sci (Weinh). 2017 Jun 22;4(10):1700110. doi: 10.1002/advs.201700110. eCollection 2017 Oct.

Authors

Yu Xiong^{1

2}, Bo Wu¹, Xiaoyan Zheng³, Zheng Zhao^{2

3}, Ping Deng¹, Ming Lin⁴, Benzhong Tang^{2

3}, Beng S Ong¹

Affiliations

¹ Research Centre of Excellence for Organic Electronics Institute of Creativity and Department of Chemistry Hong Kong Baptist University Hong Kong.
² HK UST Shenzhen Research Institute No. 9 Yuexing 1st RD, Hi-tech Park Nanshan Shenzhen 518057 P. R. China.
³ Department of Chemistry The Hong Kong University of Science and Technology Clear Water Bay Hong Kong.
⁴ Agency for Science, Technology and Research Institute of Materials Research and Engineering 2 Fusionopolis Way 138634 Singapore.

Abstract

A novel, star-shaped electron acceptor, DMTPA-PDI₃, derived from a planar dimethylmethylene-bridged triphenylamine core with three acetylene-linked perylene diimide (PDI) units is developed as a nonfullerene acceptor for organic solar cells (OSCs). DMTPA-PDI₃ manifests significantly reduced intramolecular twisting, enabling sufficient system-wide π-electron delocalization leading to broadened spectral absorption and raised lowest unoccupied molecular orbital level. As a result, higher and more balanced hole and electron transport properties are observed. Active layers for OSCs comprising DMTPA-PDI₃ acceptor and PBT7-Th donor exhibit suppressed intermolecular aggregation, giving rise to uniform nanophase network formation. These OSC devices have afforded respectably high power-conversion efficiency of about 5%.

Keywords: nonfullerene acceptors; organic solar cells; perylene diimide; triphenylamine.