Unraveling the relationship between the phenethylammonium-induced 2D phase on the perovskite surface and inverted wide bandgap perovskite solar cell performance
Energy & Environmental Science2024Vol. 17(22), pp. 8658–8669
Citations Over TimeTop 10% of 2024 papers
Xiaomin Huo, Silvia Mariotti, Yaoyao Li, Ting Yue Guo, Chenfeng Ding, Penghui Ji, Shuai Yuan, Tongtong Li, Ning Meng, Xiaomin Liu, Jiahao Zhang, Ilhem Nadia Rabehi, Yu Zhang, Suling Zhao, Hengyuan Wang, Dandan Song, Luis K. Ono, Zheng Xu, Yabing Qi
Abstract
We studied the impact of phenethylammonium chloride on PIN-structured wide bandgap perovskite solar cells. Elimination of the 2D phase results in a champion efficiency of 20.61% and a V OC loss of only 410 mV with hysteresis-free J–V curves.
Related Papers
- → Enhancing the perovskite solar cell performance by the treatment with mixed anti-solvent(2018)35 cited
- → Pressure-Tunable Optimal Bandgap in 3D Halide Perovskites: A Study of APbI3 (A = AM1, AM2, FM1, FM2, and DM)(2023)7 cited
- → High performance flexible perovskite solar cell with large area via one-step solution process(2019)4 cited
- → Studying the Effect of Changing Several Layers on the Performance of the Perovskite Solar Cell (CH3NH3PbI3) and Studying the Effect of Adding the Back Surface Filed layer to the Solar Cell Using the Simulation Program (SCAPS 1-D)(2022)1 cited
- → Optical properties and photocurrent simulation of perovskite solar cell with rectangular nanorod array(2015)