Significant Improvement of Semiconducting Performance of the Diketopyrrolopyrrole–Quaterthiophene Conjugated Polymer through Side-Chain Engineering via Hydrogen-Bonding

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• 作者：Jingjing Yao ; Chenmin Yu ; Zitong Liu ; Hewei Luo ; Yang Yang ; Guanxin Zhang ; Deqing Zhang
• 刊名：Journal of the American Chemical Society
• 出版年：2016
• 出版时间：January 13, 2016
• 年：2016
• 卷：138
• 期：1
• 页码：173-185
• 全文大小：840K
• ISSN：1520-5126

文摘

Three diketopyrrolopyrrole (DPP)–quaterthiophene conjugated polymers, pDPP4T-1, pDPP4T-2, and pDPP4T-3, in which the molar ratios of the urea-containing alkyl chains vs branching alkyl chains are 1:30, 1:20, and 1:10, respectively, were prepared and investigated. In comparison with pDPP4T without urea groups in the alkyl side chains and pDPP4T-A, pDPP4T-B, and pDPP4T-C containing both linear and branched alkyl chains, thin films of pDPP4T-1, pDPP4T-2, and pDPP4T-3 exhibit higher hole mobilities; thin-film mobility increases in the order pDPP4T-1 < pDPP4T-2 < pDPP4T-3, and hole mobility of a thin film of pDPP4T-3 can reach 13.1 cm² V^–1 s^–1 after thermal annealing at just 100 °C. The incorporation of urea groups in the alkyl side chains also has an interesting effect on the photovoltaic performances of DPP–quaterthiophene conjugated polymers after blending with PC₇₁BM. Blended thin films of pDPP4T-1:PC₇₁BM, pDPP4T-2:PC₇₁BM, and pDPP4T-3:PC₇₁BM exhibit higher power conversion efficiencies (PCEs) than pDPP4T:PC₇₁BM, pDPP4T-A:PC₇₁BM, pDPP4T-B:PC₇₁BM, and pDPP4T-C:PC₇₁BM. The PCE of pDPP4T-1:PC₇₁BM reaches 6.8%. Thin films of pDPP4T-1, pDPP4T-2, and pDPP4T-3 and corresponding thin films with PC₇₁BM were characterized with AFM, GIXRD, and STEM. The results reveal that the lamellar packing order of the alkyl chains is obviously enhanced for thin films of pDPP4T-1, pDPP4T-2, and pDPP4T-3; after thermal annealing, slight inter-chain π–π stacking emerges for pDPP4T-2 and pDPP4T-3. Blends of pDPP4T-1, pDPP4T-2, and pDPP4T-3 with PC₇₁BM show a more pronounced micro-phase separation. These observations suggest that the presence of urea groups may further facilitate the assemblies of these conjugated polymers into nanofibers and ordered aggregation of PC₇₁BM.