苯并二噻吩/苯并噻二唑ADA型光电化合物:氟取代的影响

在其组成的共轭基元上进行氟取代是有机光电材料功能修饰的常见策略之一.在前期苯并二噻吩/苯并噻二唑ADA型小分子光电化合物基础上,在两个苯并噻二唑基元上引入不同个数的氟取代基,考察氟修饰位置和个数对其基本性质、场效应晶体管和光伏性能的影响.研究表明,随着氟原子数目的增加,化合物的溶解性能降低,热稳定性提高,最高占有轨道和最低空轨道能级降低,但光谱吸收范围变化不大.有机场效应晶体管器件测试表明,当苯并噻二唑单氟代且位于外侧位点时,化合物的空穴迁移率有所降低;当苯并噻二唑双氟代时,迁移率得到了明显提高,达到0.27cm2·V^-1·s^-1.光伏器件研究发现,氟原子的引入提高了器件的开路电压,但活性层形貌变差,最终导致短路电流密度和电池效率下降.

Benzodithiophene/Benzothiadiazole-Based ADA-Type Optoelectronic Molecules: Influence of Fluorine Substitution

Liang Long;Liu Li-Na;Chen Xue-Qiang;Xiang Xuan;Ling Jun;Lu Zheng-Quan;Li Jing-Jing;Li Wei-Shi(Zhengzhou Engineering Research Center for High Performance Organic Functional Materials, Zhengzhou Institute of Technology, Zhengzhou 450044;Key Laboratory of Synthetic and Self-assembly Chemistry for Organic Functional Molecules, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Shanghai 200032;Department of Polymer Science and Engineering, Zhejiang University, Hangzhou 320027)