Imidazole-Functionalized Fullerene as a Vertically Phase-Separated Cathode Interfacial Layer of Inverted Ternary Polymer Solar Cells

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• 作者：Dan Li ; Qing Liu ; Jieming Zhen ; Zhimin Fang ; Xiang Chen ; Shangfeng Yang
• 刊名：ACS Applied Materials & Interfaces
• 出版年：2017
• 出版时间：January 25, 2017
• 年：2017
• 卷：9
• 期：3
• 页码：2720-2729
• 全文大小：583K
• ISSN：1944-8252

文摘

By using a facile one-pot nucleophilic addition reaction, we synthesized a novel imidazole (IMZ)-functionalized fullerene (C₆₀-IMZ), and applied it as a third component of inverted ternary polymer solar cells (PSCs), leading to dramatic efficiency enhancement. According to FT-IR, XPS spectroscopic characterizations, and elemental analysis, the chemical structure of C₆₀-IMZ was determined with the average IMZ addition number estimated to be six. The lowest unoccupied molecular orbital (LUMO) level of C₆₀-IMZ measured by cyclic voltammetry was −3.63 eV, which is up-shifted relative to that of 6,6-phenyl C₆₁-butyric acid methyl ester (PC₆₁BM). Upon doping C₆₀-IMZ as a third component into an active layer blend of poly(3-hexylthiophene) (P3HT) and PC₆₁BM, the power conversion efficiency (PCE) of the inverted ternary PSCs was 3.4% under the optimized doping ratio of 10 wt %, dramatically higher than that of the control device ITO/P3HT:PC₆₁BM/MoO₃/Ag based on the binary P3HT:PC₆₁BM blend (1.3%). The incorporation of C₆₀-IMZ results in enhancement of the absorption of P3HT:PC₆₁BM blend film, increase of the electron mobility of the device, and rougher film surface of the P3HT:PC₆₁BM active layer beneficial for interfacial contact with the Ag anode. Furthermore, C₆₀-IMZ doped in P3HT:PC₆₁BM blend may migrate to the surface of ITO cathode via vertical phase separation as revealed by XPS depth analysis, consequently forming a cathode interfacial layer (CIL), which can lower the work function (WF) of ITO cathode. Thus, the interfacial contact between the active layer and ITO cathode is improved, facilitating electron transport from the active layer to ITO cathode. The effectiveness of C₆₀-IMZ as a vertically phase-separated CIL on efficiency enhancement of inverted ternary PSCs is further verified by doping it into another active layer system comprised of a low-bandgap conjugated polymer, poly(thieno[3,4-b]-thiophene/benzodithiophene) (PTB7), blended with [6,6]-phenyl C₇₁-butyric acid methyl ester (PC₇₁BM). Under the optimized C₆₀-IMZ doping ratio of 10 wt %, the PCE of the PTB7:PC₇₁BM-based inverted ternary PSC device reaches 5.3%, which is about 2 times higher than that of the control binary device (2.6%).