For the first time in history, scientists have managed to unveil the structure of fluoride ion using solid-state nuclear magnetic resonance (NMR) spectroscopy. This breakthrough could be used to understand the behavior of fluoride ion in different materials, such as pharmaceuticals, catalysts, and other materials used in everyday life. This information could be used to design more efficient materials and processes. The research was led by Dr. Jens Brender at the Leibniz Institute for Solid State and Materials Research in Dresden, Germany. To conduct the study, the team used a high-resolution solid-state NMR instrument to measure the dipolar couplings between the fluorine and hydrogen nuclei of the fluoride ion. The results showed that the fluoride ion is asymmetric, meaning that the two fluorine atoms are not symmetrically arranged. This asymmetry is important for understanding the behavior of fluoride ion in different materials.

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source: Phys.org