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Impregnation synthesis of a novel macroporous silica-based TODGA polymeric composite and its application in the adsorption of rare earths in nitric acid solution containing diethylenetriaminepentaacetic acid
Authors:Anyun Zhang  Etsushu Kuraoka
Affiliation:a College of Materials Science and Chemical Engineering, Zhejiang University, Hangzhou 310027, PR China
b Nuclear Chemistry and Chemical Engineering Center, Institute of Research and Innovation, 1201 Takada, Kashiwa, Chiba-ken 277-0861, Japan
Abstract:A macroporous silica-based N,N,N′,N′-tetraoctyl-3-oxapentane-1,5-diamide (TODGA) polymeric composite (TODGA/SiO2-P) was synthesized. It was done through impregnation and immobilization of TODGA molecule into the pores of the SiO2-P particles utilizing a vacuum sucking technique. The macroporous SiO2-P particles were the silica-based organic/inorganic composite synthesized by immobilizing styrene-divinylbenzene copolymer inside SiO2 through the complicated polymerization reaction. The adsorption of rare earth (RE(III)) elements onto TODGA/SiO2-P was investigated in HNO3 solution containing diethylenetriaminepentaacetic acid (DTPA), an acidic multi-dentate chelating agent. It was found that in the presence of 0.05 M DTPA, View the MathML source and H+ had significant effect on the TODGA/SiO2-P adsorption due to the competition reactions of RE(III) with different species, H4DTPA and H2DTPA3−. With an increase in the concentration of View the MathML source from 0.115 M to 3.015 M, the adsorption of RE(III) onto TODGA/SiO2-P increased noticeably. On the other hand, RE(III) showed strong adsorption at 0.1 M H+, weak adsorption at around pH 2, and no adsorption in excess of pH 2.3. In a 0.1 M H+-0.115 M View the MathML source-0.05 M DTPA solution, a change of the distribution coefficient of RE(III) onto TODGA/SiO2-P with an increase in atomic number of RE(III) from La(III) to Lu(III) was investigated. The silica-based TODGA/SiO2-P polymeric composite showed strong adsorption for heavy RE(III) over the light one. In a 0.01 M H+-1.0 M View the MathML source-0.05 M DTPA solution, the effect of the ratio of solid phase to liquid one on the relationship of the distribution coefficient of RE(III) with the change in atomic number of RE(III) was also studied. Based on the complicated disassociation equilibrium of DTPA, the influence of the concentrations of View the MathML source and H+ on the adsorption of TODGA/SiO2-P for RE(III) was demonstrated. This makes the partitioning of RE(III) and MA(III) together from high level liquid waste (HLLW) by the polymeric composite TODGA/SiO2-P promising.
Keywords:Synthesis   Macroporous silica-based polymeric composite   Adsorption   Rare earth
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