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Article citations


Lavrentyev, A.A., Nikiforov, I.Y., Dubeiko, V.A., Gabrelian, B.V. and Rehr, J.J. (2001) The Use of the FEFF8 Code to Calculate the XANES and Electron Density of States of Some Sulfides. Journal of Synchrotron Radiation, 8, 288-290.

has been cited by the following article:

  • TITLE: An Amidoximated-UHMEPE Fiber for Selective and High Efficient Removal of Uranyl and Thorium from Acid Aqueous Solution

    AUTHORS: Chan Jin, Jiangtao Hu, Jianqiang Wang, Chunyun Xie, Yajun Tong, Linjuan Zhang, Jing Zhou, Xiaojing Guo, Guozhong Wu

    KEYWORDS: UHMWPE Fiber, Uranium Ions, Thorium Ions, Selective Absorption Mechanism, XAFS, SR-FTIR

    JOURNAL NAME: Advances in Chemical Engineering and Science, Vol.7 No.1, December 30, 2016

    ABSTRACT: High efficient removal and recovery of uranium and thorium from nuclear waste solution are essential for environmental preservation and fuel recycle. A new polymer fiber adsorbent (UHMEPE-g-PAO fiber), prepared by amidoximation of grafted polyacrylonitrile onto Ultra High Molecular Weight Polyethylene (UHMWPE) fiber, was used to remove the uranyl and thorium ions from acid aqueous solutions and its performance was carefully investigated. It was found that uranyl ion can penetrate the fiber through the connected pore structures, forming (UO2) (R-C(NH2)-NO)2 chelates with the amidoxime groups within the fiber. Two amidoxime groups (U-N and U-Oeq) and two water molecules (U-Oeq2) are bound to uranyl ion in the fiber. On the contrary, thorium ions are adsorbed mainly on the fiber surface in the form of Th(OH)4 precipitate that blocks the entrance of Th4+ ion into fiber pores. The maximum included other two capacities of uranyl and thorium ions were estimated to be 262.01 mg/g and 160 mg/g at room temperature with pH 3.0, respectively. The results also indicate that the UHMWPE-g-PAO fiber has higher adsorption selectivity for uranyl ion than thorium ion. Uranium and thorium oxide particles were obtained as the ultimate product after sintering of the fiber adsorbent. This novel and environmentally friendly adsorption process is feasible to extract uranium or thorium from acidic aqueous solution.