Download This PaperEnhancing the Stability of Poly(Ionic Liquids)@Mofs@Cofs Via Core-Shell Protection Strategy for 99tco4− Sequestration
30 Pages Posted: 1 Aug 2022
Abstract
Sequestration of 99 TcO 4 – from acidic or alkaline nuclear waste is highly desirable and necessary for purpose of energy sustainability and environment safety. However, it remains currently an unmet challenge given the harsh work environment, including extreme pH conditions, high salinity, and strong radiation. Herein, we propose an “impregnation-coating” hierarchical composite strategy to fabricate ReO 4 – (a surrogate of 99 TcO 4 – ) sorbent, to achieve the combination of high capture efficiency and superior structural stability under both acidic and alkaline conditions. In situ polymerization of ionic liquids (ILs) impregnated into the pores of NH 2 -UiO-66 forms polyILs@NH 2 -UiO-66, which is then covalently coated by chemically stable COF on the surface, generating a core-shell polyILs@NH 2 -UiO-66@COF composite. The resulting composite can maintain structural integrity in 3 M HNO 3 or 2 M NaOH solutions. More importantly, this material shows good performance to remove 80.4% and 44.6% of ReO 4 – from the simulated Hanford low activity waste and high-level radioactive waste at the U.S. Savannah River Site, respectively. This strategy provides a constructive way to design hierarchical core-shell composites and extends the applications of polyILs@MOF@COF hybrids.
Keywords: composite, Poly(ionic liquids), Metal-organic frameworks, Covalent-Organic Frameworks, Perrhenate Sequestration
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