A challenge in organic solar cell (OSC) research is the minimization of the photon energy loss (E-loss), which limits the power conversion efficiency (PCE). Here, we describe the development of a new stereoregular beta-dicyanodistyrylbenzene (beta-DCS)-based polymer (PBDCS), consisting of trans-isomeric beta-DCS and two-dimensional benzodithiophene (2D-BDT), that has a deep HOMO of -5.59 eV and a low band gap of 1.75 eV. Interestingly, PBDCS exhibited 100% trans-stereoregularity and, because of its unique resonance structure and aggregation properties, no trans-to-cis photoisomerization on exposure to UV light. Subsequently, an OSC based on PBDCS: PC71BM was found to have a JSC of 15 mA cm(-2) and a high VOC of 0.95 V, resulting in a relatively low E-loss of 0.80 eV with an EQE(max) of 82.7%, and a PCE of 8.75%. Furthermore, the OSC based on PBDCS: ITIC exhibited a PCE of 7.81% with a remarkably high VOC of 1.08 V and a JSC of 15.9 mA cm(-2). In addition, the OSC has an extremely small E-loss of 0.49 eV despite the high EQE(max) of 74.2%. This E-loss is the smallest E-loss value in an efficient OSC. In addition, these results suggest that beta-DCS is a suitable acceptor moiety for OSCs with small E-loss values.

• 出版日期2017-8-28