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Polyvinyl Pyrrolidone Induced “Confinement Effect” on PbI<sub>2</sub> and the Improvement on Crystallization and Thermal Stability of Perovskite

Xi Yu, Zhenxing Fang, Siyuan Lin, Shuyue Wu, Mei Fang, Haipeng Xie, De‐Ming Kong, Conghua Zhou

2023Small17 citationsDOI

Abstract

Abstract Polyvinyl pyrrolidone is blended in PbI 2 with varied concentration, so as to study the coarsening dynamics of perovskite during the two‐step growth method. It is observed that polyvinyl pyrrolidone hinders the crystallization of PbI 2 and helps to form a more amorphous PbI 2 matrix, which then improves perovskite crystallization. As the blending concentration increases from 0 to 2 mM, average crystallite/grain size of perovskite increases from 40.29 nm/0.79 µm to 84.35 nm/1.02 µm while surface fluctuation decreases slightly from 25.64 to 23.96 nm. The observations are caused by the “confinement effect” brought by polyvinyl pyrrolidone on PbI 2 . Elevating blending concentration of polyvinyl pyrrolidone results in smaller PbI 2 crystallites and more amorphous PbI 2 matrix, thus reducing the diffusion/reaction barrier between PbI 2 and organic salt and favoring perovskite crystallization. As blending concentration increases from 0 to 2 mM, the device efficiency rises from 19.76 (± 0.60) % to 20.50 (± 0.89) %, with the optimized value up to 22.05%, which is further improved to 24.48% after n‐Octylammonium iodide (OAI)‐basing surface modification. The study enlarges the scope of “confinement effect” brought by polymer molecules, which is beneficial for efficient and stable perovskite solar cell fabrication.

Topics & Concepts

CrystallizationThermal stabilityMaterials sciencePerovskite (structure)Chemical engineeringThermalComposite materialThermodynamicsPhysicsEngineeringPerovskite Materials and ApplicationsZnO doping and propertiesGas Sensing Nanomaterials and Sensors
Polyvinyl Pyrrolidone Induced “Confinement Effect” on PbI<sub>2</sub> and the Improvement on Crystallization and Thermal Stability of Perovskite | Litcius