Sodium borosilicate glasses containing various concentrations of rhenium or technetium were fabricated, and their vibrational spectra studied using a Raman microscope. Spectra were interpreted with reference to new high resolution measurements of alkali pertechnetates and perrhenates NaReO4, KReO4, NaTcO4, and KTcO4. At low concentrations of ReO4- or TcO4-, glass spectra show weak peaks superimposed on a dominant spectrum of glass characteristic of silicate and borate network vibrations. At high concentrations, sharp peaks characteristic of crystal field splitting and C4h symmetry dominate the spectra of glasses, indicating alkali nearby tetrahedral Re or Tc. Often peaks indicative of both the K and Na pertechnetates/ perrhenates are evident in the Raman spectrum, with the latter being favored at high additions of the source chemical, since Na is more prevalent in the glass and ion exchange takes place. These results have significance to immobilization of nuclear waste containing radioactive 99Tc in glass for ultimate disposal.
Revised: April 28, 2014 |
Published: January 3, 2014
Citation
Gassman P.L., J.S. McCloy, C.Z. Soderquist, and M.J. Schweiger. 2014.Raman Analysis of Perrhenate and Pertechnetate in Alkali Salts and Borosilicate Glasses.Journal of Raman Spectroscopy 45, no. 1:139-147.PNNL-SA-96638.doi:10.1002/jrs.4427