摘要
All-fused-ringπ-conjugated molecules have received considerable attention because of their unique electronic structures,low conformation disorder,and excellent optoelectronic properties.Most all-fused-ring molecules are p-type organic semiconductors and possess medium bandgaps.In this work,we design and synthesize an all-fused-ring molecule(FM1)with an n-type property and narrow bandgap,which is a 10-fused-ring system composed of one electrondeficient benzotriazole core,two electron-rich thienopyrrole bridging units,and two electron-deficient malononitrile-functionalized end-cappers.FM1 exhibits low-lying highest occupied molecular orbit/lowest unoccupied molecular orbit energy levels of−5.77 eV/−3.89 eV,high electron mobility of 6.0×10^(−4)cm^(2)V^(−1)s^(−1),an optical bandgap of 1.50 eV,and a maximum absorption wavelength of 769nm.Because of the all-fused-ring skeleton,FM1 shows superior photostability and chemical stability.We use FM1 as an electron acceptor and successfully construct organic solar cell(OSC)devices with a decent power conversion efficiency(PCE)of 10.8%.Most importantly,the intrinsic stability of FM1 leads to its excellent OSC device stability.After irradiation with simulated solar light for 16 h,while control of the OSC device of the state-of-the-art small molecule electron acceptor shows a 46%decrease of PCE,the FM1’s unencapsulated OSC device exhibits only a 9%decrease of PCE.
基金
support by the National Key Research and Development Program of China(grant no.2019YFA0705900)funded by MOST and the National Natural Science Foundation of China(grant nos.22135007 and 21875244).
