材料科学
有机太阳能电池
制作
沉积(地质)
光电子学
导电体
纳米技术
能量转换效率
吸附
混合太阳能电池
氧化物
太阳能
工作(物理)
透明导电膜
调制(音乐)
导电聚合物
光伏系统
聚合物太阳能电池
太阳能电池
化学工程
等离子太阳电池
光圈(计算机存储器)
太阳能电池效率
高效能源利用
比表面积
载流子
纳米材料
聚合物
作者
Xiaoxiao Peng,Siwei Luo,Chaoyue Zhao,Fan‐Cheng Kong,Ying Liu,Tianxiao Liu,Yunjie Dou,Xiaoyu Shi,Philip C. Y. Chow,Huawei Hu,Qingdong Zheng,S Chen
摘要
ABSTRACT Co‐depositing hole transporters with light‐absorbing active layers is a promising approach for simplifying the fabrication of organic solar cells (OSCs). However, this simplified method currently yields significantly lower performance compared to the traditional sequential deposition method. Our work reveals that a major reason for this is the insufficient adsorption of self‐assembling hole‐transporting materials onto the transparent conductive oxide (TCO) substrate, which degrades deposition uniformity and charge transport. To address this, we develop a new strategy that incorporates poly(styrene sulfonic acid) (PSS), a material characterized by high hydrophilicity and surface energy. The addition of PSS effectively promotes the self‐assembly of the hole‐transporting materials toward the TCO during co‐deposition. This reduces un‐adsorbed areas and suppresses nonradiative recombination. Consequently, our co‐deposited OSCs achieved an efficiency of 20.0%, which is the highest reported efficiency for this type of device to date. Furthermore, an organic solar module based on this strategy also achieved a high efficiency of 17.0% with an aperture area of 12.0 cm 2 .
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