Litcius/Paper detail

Stabilized perovskite ink for scalable coating enables high-efficiency perovskite modules

Yangyang Liu, Junke Wang, Tianxiao Liu, Lingyuan Wang, Yuhan Zhou, Yaoyao Zhang, Yunjie Dou, X. L. Shi, He Yan, Akash Dasgupta, Henry J. Snaith, Shangshang Chen

2026Science Advances7 citationsDOIOpen Access PDF

Abstract

Perovskite inks play critical roles in determining film quality and device performance, and ink stability is desired to ensure high device reproducibility. Here, we reveal the instability issue of current cesium-formamidinium lead triiodide (Cs x FA 1− x PbI 3 ) inks whose aggregation and precipitation tendencies are induced by excessively strong solvent-lead-halide coordination. By modulating coordination strength between precursor salts and solvents, we identify solvent coordination-dispersion equilibrium as the governing factor for ink stability and develop a stable ink that exhibits a remarkable increase in the shelf life. It effectively tunes ink drying and film crystallization, resulting in blade-coated perovskite films with excellent uniformity and low defect density. This enhancement led to increased aperture efficiency of ambient-fabricated p-i-n perovskite modules to 23.5%. The resultant devices also exhibit high durability, and 99% of the initial PCE was retained after 1700 hours of maximum power point tracking following the ISOS-L-2 standard protocol.

Topics & Concepts

InkwellPerovskite (structure)Materials scienceTriiodidePrecipitationNanotechnologyCoatingChemical engineeringDip-coatingOptoelectronicsInkjet printingSubstrate (aquarium)SinteringThin filmSolventComposite materialConductive inkPerovskite Materials and ApplicationsOrganic Light-Emitting Diodes ResearchThin-Film Transistor Technologies