참고문헌
- C.E. Stevenson, "The EBR II Fuel Cycle Story," American Nuclear Society, LaGrange Park, IL USA (1987).
- R.K. Steunenberg, R.D. Pierce and L. Burris, "Pyrometallurgical and Pyrochemical Fuel Processing," Progress in Nuclear Energy Series III, Process Chemistry, 461 (1969).
- C.E. Till, Y.I. Chang and W.H. Hannum, "The Integral Fast Reactor - An Overview," Progress in Nuclear Energy, 31, 1-2, 3 (1997) https://doi.org/10.1016/0149-1970(96)00001-7
- National Research Council, "Electrometallurgical Techniques for DOE Spent Fuel Treatment: Final Report," National Academy Press, Washington, DC (2000).
- K. Gourishankar, L. Redey and M.A. Williamson, "Electrochemical Reduction of Metal Oxides in Molten Salts," Light Metals 2002, TMS, 1075 (2002).
- L.A. Barnes and M.A. Williamson, "Developments in Electrolytic Reduction: Effect of Rare Earth Oxides," 2008 International Pyroprocessing Research Conference, Jeju Island, Republic of Korea, August 2008.
- A.F. LaPlace, J. Lacquement, J.L. Willit, R.A. Finch, G.A. Fletcher and M.A. Williamson, "Electrodeposition of Uranium and Transuranics (Pu) on Solid Cathodes," Nuclear Technology, Vol. 163, 366 (2008). https://doi.org/10.13182/NT08-A3995
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- Electrochemical deposition of praseodymium (III) and copper (II) and extraction of praseodymium on copper electrode in LiCl-KCl melts pp.1433-0768, 2018, https://doi.org/10.1007/s10008-018-4080-2