接受者
乙二醇
材料科学
堆积
侧链
有机太阳能电池
电子迁移率
载流子
开路电压
三甘醇
光电子学
聚合物
化学
高分子化学
电压
有机化学
电气工程
物理
工程类
复合材料
凝聚态物理
作者
Junjie Cui,Jung‐Hwa Park,Dong Won Kim,Minwoo Choi,Hae Yeon Chung,Oh Kyu Kwon,Ji Eon Kwon,Soo Young Park
标识
DOI:10.1002/asia.202100660
摘要
Despite the recent rapid development of organic solar cells (OSCs), the low dielectric constant (ϵr =3-4) of organic semiconducting materials limits their performance lower than inorganic and perovskite solar cells. In this work, we introduce oligo(ethylene glycol) (OEG) side chains into the dicyanodistyrylbenzene-based non-fullerene acceptors (NIDCS) to increase its ϵr up to 5.4. In particular, a NIDCS acceptor bearing two triethylene glycol chains (NIDCS-EO3) shows VOC as high as 1.12 V in an OSC device with a polymer donor PTB7, which is attributed to reduced exciton binding energy of the blend film. Also, the larger size grain formation with well-ordered stacking structure of the NIDCS-EO3 blend film leads to the increased charge mobility and thus to the improved charge mobility balance, resulting in higher JSC , FF, and PCE in the OSC device compared to those of a device using the hexyl chain-based NIDCS acceptor (NIDCS-HO). Finally, we fabricate NIDCS-EO3 devices with various commercial donors including P3HT, DTS-F, and PCE11 to show higher photovoltaic performance than the NIDCS-HO devices, suggesting versatility of NIDCS-EO3.
科研通智能强力驱动
Strongly Powered by AbleSci AI