Small molecules based on bithiazole for solution-processed organic solar cells

A series of donor-acceptor-donor small molecules (1-3) with bithiazole as acceptor unit, triphenylamine as donor unit and thiophene with different number (0, 1, 2) as bridge were synthesized by palladium(0)-catalyzed Suzuki or Stille coupling reactions. The thermal, optical, electrochemical, charge transport, and photovoltaic properties of these small molecules were examined. All compounds exhibit excellent thermal stability with decomposition temperatures (5% weight loss) over 390 degrees C in nitrogen atmosphere. As increasing the number of thiophene and pi-conjugation length of molecule, the absorption maximum in film red shifts from 406 to 498 nm, the extinction coefficient increases from 1.35 x 10(4) to 7.66 x 10(4) M (1) cm (1), and the optical band gap decreases from 2.6 to 2.0 eV. The electron- donating thiophene and bithiophene in compounds 2 and 3 up-shift HOMO energy level from -5.42 (1) to -5.24 eV (2) or -5.22 eV (3), and down-shift LUMO energy level from -2.48 (1) to -2.84 eV (2) or -2.81 eV (3). The hole mobility of compound 3 is up to 3.6 x 10 (4) cm(2) V (1) s (1), which is one order of magnitude higher than that of compound 2, but compound 1 shows no field- effect transistor performance. Solution-processed bulk heterojunction organic solar cells based on 1-3:PC71BM (1:4, w/w) blend films exhibit increasing power conversion efficiency (up to 2.61%) as increasing thiophene unit number. (c) 2012 Elsevier B.V. All rights reserved.