卤素
有机太阳能电池
硼
钙钛矿(结构)
材料科学
有机半导体
激子
能量转换效率
光伏系统
半导体
光化学
光电子学
化学
有机化学
烷基
聚合物
物理
凝聚态物理
复合材料
生物
生态学
作者
Brahim Lakehal,Salima Lakehal,H. Bencherif,Douniazed Hannachi,Christophe Morell,Henry Chermette
标识
DOI:10.1002/slct.202401629
摘要
Abstract Organic photovoltaic cells (OPVs) are a promising low‐cost renewable energy technology. Among various semiconductors studied for OPVs, boron subphthalocyanine chloride (Cl‐BsubPc) is one of the most explored. Phenoxy‐substituted BsubPc (PhO‐subPc) is an analogue of Cl‐BsubPc that introduces an axial phenoxy ligand in order to tune its electronic properties. In this paper, the effects of halogen substitution on the optoelectronic properties of PhO‐subPc are discussed in terms of the nature, number, and location of halogen atoms. DFT calculations show that the peripheral halogen substitutions significantly decrease the exciton binding energy value, increase the reorganization energy value, and also improve the light‐harvesting efficiency of the mentioned molecules. These modifications are symptoms of improved exciton separation and charge transport; hence, the peripherally halogenated PhO‐subPc are those that exhibit the best performances. However, the phenoxy‐substituted BsubPc do not enhance the performance of the boron subphthalocyanine chloride as far as the hole transport materials (HTM) of organic solar cells are concerned.
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