Development of a High-Performance Donor–Acceptor Conjugated Polymer: Synergy in Materials and Device Optimization

Mei Gao (503320)
Jegadesan Subbiah (1842196)
Paul B. Geraghty (2631793)
Ming Chen (115604)
Balaji Purushothaman (157674)
Xiwen Chen (323415)
Tianshi Qin (1805308)
Doojin Vak (1480855)
Fiona H. Scholes (1610569)
Scott E. Watkins (1610572)
Melissa Skidmore (2631790)
Gerard J. Wilson (1910101)
Andrew B. Holmes (1631125)
David J. Jones (1793461)
Wallace W. H. Wong (1631137)

Publication date

May 2016

DOI

10.1021/acs.chemmater.6b01194.s001

Abstract

The development of a high-performance polymer PBDT-BT for bulk heterojunction solar cell devices is summarized. The polymer was first synthesized by Stille polycondensation, and solar cell devices in conventional geometry were optimized through the use of a lithium salt cathode interlayer reaching 6% power conversion efficiency. Improvements were made to the synthesis of the polymer using Suzuki polycondensation giving high-molecular-weight material in the Mn = 100 kg/mol range. Further device optimization in inverted geometry gave power conversion efficiency of over 9%. The synthesis scalability as well as the batch-to-batch reproducibility of the polymer were extensively investigated

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Development of a High-Performance Donor–Acceptor Conjugated Polymer: Synergy in Materials and Device Optimization

Abstract

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Development of a High-Performance Donor–Acceptor Conjugated Polymer: Synergy in Materials and Device Optimization

Abstract

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