Ivan L. Prusakov scite author profile

Int J of Appl Glass Sci

et al. 2019

The phase composition, structure, and rhenium (technetium surrogate) speciation in sodium aluminum(iron) phosphate glasses synthesized under oxidizing and reducing conditions were examined using X-ray diffraction, scanning electron microscopy, Fourier transform infrared, Raman, and X-ray absorption near edge structure spectroscopic methods. In the sodium aluminophosphate glasses, Re is present in both metallic Re(0) form and Re(VII). In the Sodium aluminum-iron phosphate glasses, regardless of the conditions of their production, all the Re occurred as Re(VII).Elemental leach rates from the Re-containing glasses were found to be lower than the standard values. K E Y W O R D Selectron microscopy, IR spectroscopy, Raman spectroscopy, x-ray absorption, x-ray diffraction 480 |

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Speciation of sulphate ions in sodium alumino(iron)phosphate glasses

Journal of Non-Crystalline Solids

et al. 2019

Nagelschmidtite as a candidate host phase for actinides, rare earth and different waste elements

2017

MRS Advances

Nagelschmidtite, Ca7P2Si2O16, is an end-member of continuous solid solution Ca2SiO4 – Ca3(PO4)2⋅2Ca2SiO4 within the pseudo-binary system Ca3(PO4)2 – Ca2SiO4 (whitlockite – larnite). This phase is capable to wide isomorphic exchanges in Ca, P and Si sites: Ca2+ = Sr2+; Ca2+ = Eu2+; Ca2+ + P5+ = (RE,An)3+ + Si4+, 2Ca2+ = Na+ + (RE,An)3+; 2Ca2+ = An4+ + ☐; Ca2+ + Si4+ = (RE,An)3+ + (Al,Fe)3+; Ca2+ + Si4+ = Na+ + P5+; 2Ca2+ = Na+ + (Al,Fe)3+; Ca2+ + P5+ = Na+ + S6+. It was found in metallurgical slags and geological formations. We revealed nagelschmidtite-type phase in vitrified phosphorus-bearing radioactive incinerator slags. The materials were glass-crystalline and contained nano-sized nagelschmidtite crystals distributed in vitreous matrix phase. Average chemical composition of the largest (few microns) crystals was recalculated to formula Na1.21K1.05Ca2.22Al2.02Fe0.46Si2.69P1.26U0.08O15.76. Significant oxygen misbalance suggests higher than U(IV) oxidation state for uranium – U(V) or U(VI). Capability of nagelschmidtite to be crystallized from melt makes it promising phase for actinides, rare earths and some other fission and corrosion products at using a melting route to nuclear waste forms including cold crucible induction melting and self-propagating high-temperature synthesis.

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Simulation of radioactive decay by barium substitution for cesium in sodium aluminum-iron phosphate glass

et al. 2018

J Radioanal Nucl Chem