结晶
材料科学
接受者
三元运算
模板
二亚胺
能量转换效率
组分(热力学)
相(物质)
工作(物理)
化学工程
有机太阳能电池
摩尔比
能量转换
纳米技术
分子
图层(电子)
电子受体
组合化学
光伏系统
光电子学
层状结构
作者
Ya-Ting Wang,Wen-Jing Sun,Kaihu Xian,Bo-Yang Zhang,Yun-Tao Ding,Bo-Zhou Chen,Xing-Hao Cui,Shun-Da Wu,Ke Wang,Xue Jia,Zhiyong Huang,Rui Ma,Zhaozhao Bi,Wei Ma,Yamin Zhang,Hao-Li Zhang
标识
DOI:10.1021/acs.chemmater.6c00192
摘要
The multicomponent strategy is widely recognized as an effective approach for enhancing the performance of organic solar cells (OSCs). While guest components can bring multiple benefits, the ability to precisely regulate molecular crystallization, ensuring inertness toward one host component while directing the assembly of the other, remains highly impactful and challenging. Herein, we propose a guest-mediated orthogonal crystallization strategy in which the guest component achieves dual functionality: it directs the crystallization of the acceptor without interfering with the donor, thereby preserving its optimal morphology. Based on this concept, we designed and synthesized a guest molecule, PPyBT, which incorporates benzodithiophene (BDT) units to ensure donor inertness and 4,5,9,10-pyrene diimide (PyDI) units to guide acceptor packing. PPyBT acts as a multifunctional regulator that not only templates the active layer morphology but also optimizes the energy level alignment. The resulting well-defined phase separation and molecular packing enable the corresponding PM6:L8-BO:PPyBT ternary device to achieve a power conversion efficiency of 19.15%, which is among the highest values reported to date, along with improved stability under both photo- and thermal-stress. This work establishes a feasible molecular framework for guest-induced crystallization control, offering a promising pathway toward high-performance OSCs.
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