Performance tests were conducted using novel sorbent materials that can immobilize or delay the transport of radioiodine that would be released during physical and chemical degradation of solidified low-level waste packages. The results showed that metal-capped novel sorbents such as Hg-thiol and Ag-thiol Self-Assembled Monolayers on Mesoporous Silica (SAMMS), designed specifically to adsorb soft anions such as I-, had very high affinities for adsorption of radioiodine (Kd ~1x104 – 4x105 ml/g). The iodide adsorption performance of these novel sorbents was from one to two orders of magnitude better than many natural mineral and modified mineral sorbents. These data indicate that the novel nanoporous sorbent materials are capable of significantly retarding the mobility of radioiodine leaching from physically and chemically weathered low-level waste glass packages during various physical and chemical weathering reactions expected during long-term disposal.
Revised: November 6, 2007 |
Published: July 2, 2007
Citation
Mattigod S.V., G.E. Fryxell, and K.E. Parker. 2007.Functionalized Nanoporous Sorbents for Adsorption of Radioiodine from Groundwater and Waste Glass Leachates. In Environmental Applications of Nanomaterials: Synthesis, Sorbents and Sensors”, edited by Glen E Fryxell, Guozhong Cao. 111-122. London:Imperial College Press. PNWD-SA-7463.