Double B←N bridged bipyridine-containing polymer acceptors with enhanced electron mobility for all-polymer solar cellsElectronic supplementary information (ESI) available: Characterization and thermal properties of the polymers, as well as all-PSC device performance and charge-transporting properties. See DOI: 10.1039/c8qm00492g

With the aim of developing polymer electron acceptors with high electron mobilities ( μ e ) for all-polymer solar cells (all-PSCs), we synthesized two novel polymer acceptors ( P-BNBP-2f and P-BNBP-4f ) containing alternate double B←N bridged bipyridine (BNBP) and 2,2′-(2,5-difluoro-1,4-phenylene)di...

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Main Authors: Long, Xiaojing, Yao, Jiuyong, Cheng, Fangfang, Dou, Chuandong, Xia, Yanzhi
Format: Article
Language:English
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Summary:With the aim of developing polymer electron acceptors with high electron mobilities ( μ e ) for all-polymer solar cells (all-PSCs), we synthesized two novel polymer acceptors ( P-BNBP-2f and P-BNBP-4f ) containing alternate double B←N bridged bipyridine (BNBP) and 2,2′-(2,5-difluoro-1,4-phenylene)dithiophene/2,2′-(perfluoro-1,4-phenylene)dithiophene with extended conjugated structures. In comparison to P-BNBP-4f , P-BNBP-2f exhibits a small π-π stacking distance of 3.60 Å, leading to a sufficient electron mobility of 5.40 × 10 −4 cm 2 V −1 s −1 (measured by the space-charge-limited current method). This μ e value is among the highest values of the conventional polymer acceptors, and is close to the hole mobilities ( μ h ) of high-efficiency polymer donors. Moreover, P-BNBP-2f possesses high-lying LUMO/HOMO energy levels of −3.42/−5.81 eV, which match well with that of the reported excellent polymer donors of 2D-conjugated bithienyl-benzodithiophene- alt -fluorobenzotriazole (J61) and thienyl-substituted BDT with alkoxycarbonyl-substituted thieno[3,4- b ]thiophene (PBDTTT-E-T). In addition, the blend films based on P-BNBP-2f exhibit intermixed morphologies, which are beneficial for efficient excition dissociation. As a result, all-PSCs with P-BNBP-2f as an electron acceptor work very well and exhibit a power conversion efficiency of 5.46%. These results demonstrate that high electron mobility of a polymer electron acceptor is very important to produce efficient all-PSCs. Two novel polymer electron acceptors based on double B←N bridged bipyridine with enhanced electron mobilities were synthesized for efficient all-polymer solar cells.
ISSN:2052-1537
DOI:10.1039/c8qm00492g