W. Theodossiou, P. Misaelides, A. Godelitsas: Investigation of Fluorine Distribution on the Surface of Acid-Treated Apatite Single Crystals using Nuclear Resonant Reaction Analysis

Crystal Research and Technology

Cryst. Res. Technol. 36 (2001) 1247 - Abstract -

W. Theodossiu, P. Misaelides*, A. Godelitsas**

Institut für Kernphysik, J.-W.-Goethe-Universität, Frankfurt (Main), Germany
*Department of Chemistry, Aristotle University, Thessaloniki, Greece
**Quality Control Laboratory, TVX Hellas S.A., Stratoni, Greece

Investigation of Fluorine Distribution on the Surface of Acid-Treated Apatite Single Crystals using Nuclear Resonant Reaction Analysis

The surface of natural fluorine-containing apatite (fluoroapatite) single crystals treated with acidic solutions of pH between 0.05 and 2.5 was investigated by nuclear resonant reaction analysis (NRRA) techniques using the ¹⁹F(p,α γ)¹⁶O nuclear reaction. The experimental results showed that partial defluoridation takes place due to acid attack characteristically depending on the pH of the solutions. Powder-XRD data indicated that the crystallinity of the apatite surface was retained despite of the etch-pits observed by SEM-EDS. Relevant investigations of the surface of acid-treated apophyllite crystals, a typical fluorine-containing mineral, indicated a complete amorphization and besides a total absence of fluorine.

Keywords: apatite crystals, fluoroapatite, fluorine, apophyllite, surface analysis, nuclear resonant reaction analysis

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