Abstract
Spatially resolved measurements of boron coordination and cerium valency in a doped borosilicate glass with crystalline nano-precipitates are described. The fine structure of the boron K-edge and the white-line ratio of the cerium M-edge doublet were evaluated from EELS line scans. Due to high beam sensitivity it was found that reliable boron-coordination measurements in some of the glasses studied required extrapolation of results acquired after different periods of irradiation back to a zero-irradiation. However, borosilicates that contained heavy alkali atoms were found to suffer very little structural change. The Ce valency of a 4% (molar) doped alkali-borosilicate glass was found to be mixed +III/+IV in the glass matrix and purely +IV (indicative of CeO2) in the precipitates. A significant dependency of the valence results on the data processing method was found and explained.
Published Version
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