Abstract
The local structures around silicon and phosphorous atoms in R 2O–SiO 2–P 2O 5 (R = Li, Na and K) glasses have been investigated using Si and P K-edge XAFS spectroscopy by transmission mode at BL-4 and BL-3 at the synchrotron facility in Ritsumeikan University. As a result of XANES and EXAFS analyzes, six-coordinated silicon atoms were observed in the glasses. The fraction of six-coordinated silicon atom changed with increasing of the concentration of alkali oxide and P 2O 5. For the change of concentration of alkali oxide, it takes maximum values which are 60% in Li 2O, 90% in Na 2O and 85% in K 2O system at 20 mol% alkali oxide. It gradually increased up for the increase of the concentration of P 2O 5 to 55% in Li 2O, 80% in Na 2O and 90% in K 2O system. The Si–O inter-atomic distance in the glasses changes from 1.63 to 1.79 Å with increasing the fraction of six-coordinated silicon atom. On the other hand, it was not observed the local structural change around the phosphorous atom.
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