Enhancing efficiency and stability of ambient-processed blade-coated PSCs with tween 60 and tBBAI surface passivation

Abstract

Perovskite solar cells (PSCs) have achieved rapid efficiency improvements, but uniformity issues in spin-coated films hinder industrial scalability. This study employs γ-butyrolactone (GBL) as an eco-friendly solvent for blade coating under ambient conditions and investigates the combined effects of polyethylene glycol sorbitan monostearate (Tween 60) and 4-tert-butylbenzylammonium iodide (tBBAI) on PSC performance and stability. Tween 60 improves film wettability, promoting uniform nucleation and grain growth, which enhances crystallinity and reduces grain boundary defects, increasing power conversion efficiency (PCE) from 14.24 % to 16.42 %. Surface passivation with tBBAI mitigates non-radiative recombination by filling iodide and cation vacancies, further raising PCE to 18.39 %. Stability tests show that PSCs treated with Tween 60 and tBBAI retain 85 % of their initial efficiency after 1480 hours of unencapsulated aging, while untreated devices degrade to 68 %. These results highlight an effective strategy for improving perovskite film quality, device efficiency, and operational stability.