file might look like a dry list of coordinates and symmetry groups to the uninitiated, it actually contains the blueprint for the "Black Diamond" of solar energy. Here is why this specific file is a big deal in the world of materials science. 1. The Recipe for the "Ideal" Perovskite
This is the photoactive "champion" phase used in high-efficiency solar cells due to its ideal bandgap AIP Publishing ) Phase (Yellow Phase): Structure: Non-perovskite hexagonal ResearchGate Space Group: cap P 6 sub 3 m c Technische Universität Berlin - TU Berlin Characteristics:
In the CIF file of $\alpha$-FAPbI$_3$, the FA molecule is often disordered. Because the molecule is spherical-ish and rotates freely within the inorganic cage, crystallographers often model the Carbon and Nitrogen atoms over multiple occupancy sites. You might see "occupancy" tags in the CIF less than 1.0, indicating this disorder.
Based on Laravel 5
Additional features always being planned/researched
"git" involved
file might look like a dry list of coordinates and symmetry groups to the uninitiated, it actually contains the blueprint for the "Black Diamond" of solar energy. Here is why this specific file is a big deal in the world of materials science. 1. The Recipe for the "Ideal" Perovskite
This is the photoactive "champion" phase used in high-efficiency solar cells due to its ideal bandgap AIP Publishing ) Phase (Yellow Phase): Structure: Non-perovskite hexagonal ResearchGate Space Group: cap P 6 sub 3 m c Technische Universität Berlin - TU Berlin Characteristics: fapbi3 cif file
In the CIF file of $\alpha$-FAPbI$_3$, the FA molecule is often disordered. Because the molecule is spherical-ish and rotates freely within the inorganic cage, crystallographers often model the Carbon and Nitrogen atoms over multiple occupancy sites. You might see "occupancy" tags in the CIF less than 1.0, indicating this disorder. file might look like a dry list of