1. Facile surface homojunction reconstruction in halide perovskite solar cells.
- Author
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Ling, Qin, Dai, Qing, Hu, Ziyang, Huang, Like, Liu, Xiaohui, Zhang, Houcheng, Zhang, Jing, and Zhu, Yuejin
- Subjects
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SOLAR cells , *SURFACE reconstruction , *POLAR solvents , *CHARGE carriers , *ISOPROPYL alcohol , *BISMUTH telluride - Abstract
Perovskite solar cells (PSCs) have attracted great attentions due to their excellent photovoltaic performance. Further improvement of device efficiency is limited by the recombination of the charge carriers even a heterojunction-based architecture is employed. Herein, we discovered that a simple surface modification of the perovskite film by incorporating isopropyl alcohol (IPA) post-treatment could convert the top surface to be more n-type, which spontaneously formed an n/n+ homojunction between the bulk (weak n type (n)) and the surface (more n-type (n+)) in a single perovskite film. A reconstruction toward a PbI 2 -rich top surface was induced by the remove of excess formamidinium iodide dissolved in a polar solvent IPA. This reconstructed n/n+ homojunction lead to the enlarged built-in electric field for efficient charge separation and transport of the photogenerated carriers. The inverted PSCs with the reconstructed n/n+ homojunction contribute to improve efficiency and narrow their efficiency gap with conventional n-i-p type devices. Our result suggests that the homojunction structure is an effective approach to reduce carrier recombination loss and achieve highly efficient PSCs. [Display omitted] • A facile surface homojunction reconstruction is achieved by solvent treatment. • A PbI 2 -rich perovskite surface is induced by the remove of excess FAI. • The reconstructed n/n+ homojunction brings about the enlarged built-in electric field. • The reconstructed n/n+ homojunction contributes to improved photovoltaic efficiency. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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