On the presence of OH defects in the zircon-type phosphate mineral xenotime, (Y,REE)PO4

Autor(en)
Dominik Talla, Anton Beran, Radek Skoda, Zdenek Losos
Abstrakt

The IR (IR) spectra of gem-quality xenotime crystals contg. considerable amts. of rare earth elements (REEs), are characterized by sharp and strongly pleochroic absorption bands in the 3650-3350 cm-1 region. In contrast, the spectra of partially metamict samples are dominated by a broad band centered at around 3450 cm-1. Xenotime presents the interesting case of a nominally anhyd. mineral, where the OH stretching frequency region of weakly hydrogen-bonded OH groups is overlapped by absorption bands due to low-energetic f-f electron transitions of REEs, esp. of dysprosium. In polarized spectra measured parallel to the c-axis, Dy shows a prominent sharp band at 3519 cm-1. The assignment of the REE bands is based on the polarized IR spectra of REE doped xenotime single crystals, which have been synthesized by the flux method. A single band at 3480 cm-1, strongly polarized perpendicular to the c-axis, is assigned to the stretching vibration of an OH group. Deuteration expts. performed at 950 C prove the assignment of this band and the presence of addnl. structural OH groups, appearing at annealing temps. above 500 C. Models of the OH point defect incorporation into the crystal structure of xenotime can be derived on the basis of fully occupied cation sites and under the assumption of Y- and P-site vacancies. The water content of the gem-quality samples ranges from 5 to 10 wt ppm and for the partially metamict samples from 370 wt ppm to 1.7 wt% H2O.

Organisation(en)
Institut für Mineralogie und Kristallographie
Externe Organisation(en)
Masaryk University
Journal
American Mineralogist: an international journal of earth and planetary materials
Band
96
Seiten
1799-1808
Anzahl der Seiten
10
ISSN
0003-004X
Publikationsdatum
2011
Peer-reviewed
Ja
ÖFOS 2012
105116 Mineralogie
Link zum Portal
https://ucrisportal.univie.ac.at/de/publications/36d930aa-f149-4bea-94c0-4e09956c9a83