Issue 31, 2009

Anion effect on radiochemical stability of room-temperature ionic liquids under gamma irradiation

Abstract

Radiochemical stability of imidazolium-based ionic liquids constituted of the BuMeIm+ cation and associated with four commonly used anions (X : Tf2N, TfO, PF6 and BF4) has been investigated under gamma irradiation for high irradiation doses (up to 2.0 MGy). The anion effect has been examined by quantifying the radiolytic yields of disappearance for cation and anions and by identifying corresponding radiolysis products with several analytical techniques. On the one hand, a large number of radiolysis products are formed throughout the irradiation in ionic liquid solutions, resulting from reactions of primary generated species of cation and anion by indirect radiolysis. Primary generated species can react together throughout the irradiation by indirect radiolysis to form numerous radiolysis products in small quantities, indicating that several complex degradation pathways are involved for these radiation doses. This degradation pattern has been confirmed by identification of numerous gaseous radiolytic products. On the other hand, quantitative studies show that radiochemical stabilities of ionic liquids are in the same range of values as systems envisioned in nuclear fuel reprocessing with relatively low hydrogen yields. Indeed, this present work emphasizes the suitability of ionic liquids for applications in the nuclear fuel cycle.

Graphical abstract: Anion effect on radiochemical stability of room-temperature ionic liquids under gamma irradiation

Supplementary files

Article information

Article type
Paper
Submitted
16 Feb 2009
Accepted
06 May 2009
First published
22 Jun 2009

Dalton Trans., 2009, 6175-6184

Anion effect on radiochemical stability of room-temperature ionic liquids under gamma irradiation

G. Le Rouzo, C. Lamouroux, V. Dauvois, A. Dannoux, S. Legand, D. Durand, P. Moisy and G. Moutiers, Dalton Trans., 2009, 6175 DOI: 10.1039/B903005K

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