Journal of the Ceramic Society of Japan Volume 131, Issue Supplement

Quantitative analysis of oxidation state of iron included in glass

Quantitative valence analysis of iron included in synthesized glasses has been carried out by using high-resolution X-ray fluorescence (XRF) analyzer which attached the high-resolution curved-double analyzing crystals of Si(220). The measurement results of the standard materials of Fe²⁺ (FeTiO₃) and Fe³⁺ (Fe₂O₃) have been carefully compared for the peak analysis of provided high-resolution Fe-K_α profiles. The chemical valences (Fe²⁺ and Fe³⁺) of iron component included in the glasses have been quantitatively analyzed on the basis of multiple peak analysis of Fe-K_α (both Fe-K_α1 and Fe-K_α2). The Fe²⁺/Fe³⁺ ratio has been calculated for the glasses which were synthesized under the different oxidation–reduction conditions. Additionally, the quantitative valence analysis of sulfur has been also carried out by using high-resolution XRF analyzer which attached the analyzing crystals of Ge(111) in order to clarify the relationships with iron component. Chemical valences (S²⁻ and S⁶⁺) of sulfur component were congruent with the chemical valence of iron component. Quantitative valence analysis by high-resolution XRF analysis has large advantages for the sample preparations, the surface analysis and the automated analysis.