Litcius/Paper detail

Immobilization of 137Cs as a crystalline pollucite surrounded by amorphous aluminosilicate

Keun‐Young Lee, Jimin Kim

2023Environmental Research12 citationsDOIOpen Access PDF

Abstract

Cs) has been considered stable in the form of pollucite mineralized through high-temperature heat treatment. This study presented a possibility through experimental results that the entire medium exists as amorphous aluminosilicate at a relatively low temperature, but cesium is partially and preferentially converted from a composite adsorbent into pollucite. Cesium lowers the eutectic point within the system and initiates the nucleation of pollucite prior to other elements. We confirmed that the partial mineral phase of cesium showed the same chemical stability as when the entire medium was converted to pollucite. X-ray absorption spectroscopy provided direct evidence for this phenomenon; also, the stability results of radioactive cesium shown through a series of sintering experiments supported the conclusion. This method can be applied as a method to immobilize radioactive cesium under relatively mild temperature conditions of atmospheric pressure, while eliminating the problem of diffusion due to its volatilization.

Topics & Concepts

CaesiumAluminosilicateNucleationAmorphous solidDiffusionVolatilisationEutectic systemPhase (matter)Materials scienceChemistryMineralogyAnalytical Chemistry (journal)RadiochemistryInorganic chemistryThermodynamicsCrystallographyChromatographyBiochemistryCatalysisPhysicsMicrostructureOrganic chemistryNuclear materials and radiation effectsRadioactive element chemistry and processingChemical Synthesis and Characterization