@article{Lu2026, 
author = {Jiangying Lu and Keqian Dong and Kuankuan Ren and Shan Wu and Xu Zheng and Yulin Wu and Wei Jiang and Yipeng Xu and Shudi Lu and Kong Liu and Zhijie Wang and Shizhong Yue and Liya Zhou and Shengchun Qu},
title = {Additive engineering to broaden the processing window of two-step-processed perovskite solar cells},
year = {2026},
journal = {Nano Research Energy},
volume = {5},
pages = {e9120175},
keywords = {perovskite solar cell, two-step-processed, processing window, reproducible performance},
url = {https://www.sciopen.com/article/10.26599/NRE.2025.9120175},
doi = {10.26599/NRE.2025.9120175},
abstract = {A processing window exists during the transition between film formation and the annealing step in the two-step method employed for the fabrication of FAPbI3 perovskite solar cells, independent of whether the aim is to produce a batch of small-area or large-area devices. A significant variance in the power conversion efficiencies of perovskite devices, resulting from different processing windows, leads to a marked decrease in device reproducibility. To investigate the changes occurring within the perovskite wet film during the processing window, this study utilized nitrogen protection packaging technology to monitor the crystallization process of the perovskite wet film outside the glove box. The observation indicated non-uniform intermediate-phase reaction rates. The incorporation of 3-cyanopyridine into the two-step method decelerated the crystallization kinetics of the perovskite wet film, suppressing the formation of δ-FAPbI3. Such modification expanded the processing window time, enabling the preparation of perovskite films with superior crystallinity and minimal defects. The n-i-p type perovskite solar cells exhibited a power conversion efficiency (PCE) of 25.12%. The findings demonstrate that this modification method effectively extends the processing window time of the two-step method, leading to the fabrication of perovskite devices with optimal performance and high repeatability. This represents a novel strategy for the batch production of perovskite devices and the manufacturing of large-area perovskite films.}
}