Fapbi3 Cif | File

FAPbI₃ is an organic-inorganic hybrid perovskite. Compared to its predecessor, MAPbI₃ (Methylammonium Lead Iodide), it offers a narrower bandgap (approx. 1.48 eV), which is closer to the ideal Shockley-Queisser limit for single-junction solar cells. This makes it theoretically capable of achieving higher power conversion efficiencies.

The is more than just data; it is the foundational map for the next generation of solar technology. Whether you are a computational physicist or a lab-based materials scientist, mastering the structural nuances contained within these files is the key to unlocking stable, high-efficiency perovskite energy. fapbi3 cif file

This is the "black phase" desired for solar cells. It features a high-symmetry corner-sharing PbI6cap P b cap I sub 6 octahedral network with the FA⁺ cation in the center. FAPbI₃ is an organic-inorganic hybrid perovskite

Provides computed CIF files along with predicted electronic properties. This makes it theoretically capable of achieving higher

-phase (yellow, hexagonal). Understanding this transition starts with the crystal structure. What is a CIF File?

When searching for an , you are likely looking for one of two primary polymorphs: 1. The Alpha Phase ( -FAPbI₃) Symmetry: Cubic ( Pm3m ) or slightly distorted Tetragonal.