Adsorption mechanism of Eu onto newly synthesized fluorous-compound-impregnating adsorbent
Arai, Yoichi ; Watanabe, So ; Watanabe, Masayuki; Arai, Tsuyoshi*; Katsuki, Kenta*; Agou, Tomohiro*; Fujikawa, Hisaharu*; Takeda, Keisuke*; Fukumoto, Hiroki*; Hoshina, Hiroyuki*; Seko, Noriaki*; Chikamatsu, Yuma*; Hagura, Naoto*
Radioactive aqueous and organic liquid wastes contaminated by U and radioactive materials have been generated through solvent extraction experiments on nuclear fuel materials. Although incineration and denitrification / conversion processes are promising for treatment of such liquid wastes, installation of large equipment is essential. Treatment of liquid wastes generated from the reprocessing experiments is one of important tasks of Systematic Treatments of RAdioactive liquid wastes for Decommissioning (STRAD) project, and the recovery technologies of nuclear materials from the spent solvent has been developed. However, recovery of trace amounts of nuclear fuel material from aqueous solutions with wide pH range is still a challenging task. In our previous study, the porous silica particles with a high specific surface area bearing the iminodiacetic acid (IDA) functional group were revealed to be applicable to recover cations. Although the IDA group introduced adsorbents showed an excellent adsorption reaction from the aqueous solution, further improvement related to the adsorption amount is indispensable for application to the radioactive liquid treatment. In this study, fluorous ligands with IDA group were newly synthesized, and its complexation behavior with cations was investigated in order to understand the adsorption mechanism.