中文摘要：

硫磺酸处理 poly (3,4-ethylenedioxythiophene ):(styrenesulfonate ) poly， /less-defective 减少了 graphene 氧化物(ST-PEDOT : PSS/L-rGO ) 合成电影经由一条处理答案的线路被准备并且当染料的相反的电极敏化太阳能电池(DSSC ) ，使用了。这些铂(磅)- 并且免费相反的电极展出了的透明传导性的氧化物(TCO ) 强壮的催化活动和优秀灵活性，不在 10000 以后在他们的表电阻显示出明显的变化弯曲骑车。有 TiO ₂ nanotube/Ti 网孔 photoanode 和 ST-PEDOT 的综合伪固态的 DSSC 设备: PSS/L-rGO 相反的电极展出了大约 1.8% 的精力变换效率(η ) 。它也在在 10 公里的小弯曲半径为 1000 个周期弯曲以后显示了优秀机械稳定性和耐久性。高灵活性，低费用和有效催化活动做 ST-PEDOT : 答应的 PSS/L-rGO 合成电影为灵活 DSSC 阻止电极。

英文摘要：

Sulfuric acid-treated poly（3,4-ethylenedioxythiophene）：poly（styrenesulfonate）/less-defective reduced graphene oxide （ST-PEDOT：PSS/L-rGO） composite films were prepared via a solution-processing route and used as the counter electrodes of dye sensitized solar cells （DSSCs）. These platinum （Pt）- and transparent conductive oxide （TCO）-free counter electrodes exhibited strong catalytic activity and excellent flexibility, showing no obvious change in their sheet resistances after 10000 cycles of bending. The integrated quasi-solid-state DSSC device with a TiO2 nanotube/Ti mesh photoanode and a ST-PEDOT：PSS/L-rGO counter electrode exhibited an energy conversion efficiency （~/） of about 1.8%. It also displayed an excellent mechanical stability and durability after bending for 1000 cycles at a small curvature radius of 10 mm. The high flexibility, low cost and efficient catalytic activity make ST-PEDOT：PSS/L-rGO composite films promising counter electrodes for flexible DSSCs.