材料科学
钙钛矿(结构)
偶极子
磁滞
介孔材料
化学物理
电荷(物理)
光电子学
载流子
纳米技术
氧化物
钙钛矿太阳能电池
能量转换效率
化学工程
凝聚态物理
化学
生物化学
量子力学
工程类
冶金
催化作用
物理
有机化学
作者
Yi Yang,Cheng Liu,Yong Ding,Zulqarnain Arain,Shiqiang Wang,Xuepeng Liu,Tasawar Hayat,Ahmed Alsaedi,Songyuan Dai
标识
DOI:10.1021/acsami.9b11229
摘要
Elimination of interfacial charge trapping is still a challenge for promoting both efficiency and operational stability of organic-inorganic perovskite solar cells (PSCs). Herein, an effective interface dipole, trimethylamine oxide (TMAO) regarded as a connecting bridge, is inserted between the electron transport layer (ETL) and the perovskite layer to suppress charge accumulation and fabricate highly efficient and stable PSCs. As demonstrated by energy level alignment and morphology characterization, TMAO dipoles could achieve a decreased energetic barrier of electron transport and substantial padding of perovskite in the mesoporous ETL. Thus, they facilitate the charge transfer and reduce trapped charge densities as well as recombination centers at the interface between perovskite and ETL. These desirable properties improve the device efficiency to 21.77% and weaken the hysteresis index almost to 0. More importantly, the stability of the unencapsulated PSCs is remarkably enhanced. The findings provide valuable insights into the role of a dipolar molecule in boosting the performance of PSC devices.
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