19F NMR spectroscopy of fluoridated apatites

The low-temperature 19F NMR spectra of (pentafluoropheny1)sulfur trifluoride are explained by the trigonal bipyramid structure (la) with the pentafluorophenyl ring in the basal plane and a relatively high barrier to rotation about the C-S bond. In the presence of a hydrogen fluoride scavenger, there

## Abstract To study the effect of fluoride on the physicochemical properties of carbonate‐containing apatites, two series of fluoridated CO~3~ apatites with various fluoride contents were synthesized at 80°C and pH 7.4. The __a__‐axis dimensions of these apatites decreased with the increase of bot

## Abstract One‐ and two‐dimensional magnetization‐transfer ^19^F NMR methods were applied in a quantitative study of the fluoride exchange for uranyl(2+)‐fluoride complexes in aqueous solution. The applicability of these techniques and the classical lineshape analysis is discussed, and the quality

Pb-containing hydroxylapatite phases synthesized under aqueous conditions were investigated by X-ray diffraction and solid-state nuclear magnetic resonance (NMR) techniques to determine the Pb, Ca distribution. 31P and 1H magic-angle spinning (MAS) NMR results indicate slight shifts of the isotropic