The chemical regulation of SnO to enhance the properties of the buried interface in perovskite films is extensively investigated, but the underpinning mechanisms remain insufficiently understood. In this study, a synergistic strategy for cation fixation and anion diffusion by incorporating (3-amino-3-carboxypropyl) dimethylsulfonium chloride (Vitamin U, V) into a SnO colloidal solution is proposed. The cationic end (─COOH, ─NH) of V effectively inhibits the aggregation of SnO particles and promotes electron extraction and transport via chemical interactions. Simultaneously, the anionic end (Cl⁻) acts to eliminate surface hydroxyl groups on SnO and occupy oxygen vacancies. Crucially, a novel direct current polarization test is employed to elucidate the migration mechanism of Cl⁻, revealing that the migration principle of chloride ions in SnO, and chloride ions can penetrate to the bottom of the perovskite layer, forming a wide bandgap thin layer that aids in energy level alignment and regulates charge transfer behavior. Ultimately, the device based on V-modified SnO achieves a champion efficiency of 25.27%. Moreover, it demonstrates impressive storage stability with a T90 of 5770 h and retains 86% of its initial efficiency after 1110 h of continuous light exposure.
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