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Two-dimensional perovskite templates for durable, efficient formamidinium perovskite solar cells

Authors
  • Sidhik, Siraj
  • Metcalf, Isaac
  • Li, Wenbin
  • Kodalle, Tim
  • Dolan, Connor J
  • Khalili, Mohammad
  • Hou, Jin
  • Mandani, Faiz
  • Torma, Andrew
  • Zhang, Hao
  • Garai, Rabindranath
  • Persaud, Jessica
  • Marciel, Amanda
  • Muro Puente, Itzel Alejandra
  • Reddy, GN Manjunatha
  • Balvanz, Adam
  • Alam, Muhammad A
  • Katan, Claudine
  • Tsai, Esther
  • Ginger, David
  • And 5 more
Publication Date
Jun 14, 2024
Source
eScholarship - University of California
Keywords
License
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Abstract

We present a design strategy for fabricating ultrastable phase-pure films of formamidinium lead iodide (FAPbI3) by lattice templating using specific two-dimensional (2D) perovskites with FA as the cage cation. When a pure FAPbI3 precursor solution is brought in contact with the 2D perovskite, the black phase forms preferentially at 100°C, much lower than the standard FAPbI3 annealing temperature of 150°C. X-ray diffraction and optical spectroscopy suggest that the resulting FAPbI3 film compresses slightly to acquire the (011) interplanar distances of the 2D perovskite seed. The 2D-templated bulk FAPbI3 films exhibited an efficiency of 24.1% in a p-i-n architecture with 0.5-square centimeter active area and an exceptional durability, retaining 97% of their initial efficiency after 1000 hours under 85°C and maximum power point tracking.

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