Radionuclide adsorbent, method of preparing the same and method of removing radionuclide using the same

What is claimed is: 1. A method of preparing a radionuclide adsorbent, comprising: (a) preparing a dispersion in which transition metal oxide particles and a ferrocyanide salt are dispersed in a 0.1 M to 2.0 M acidic solution; and (b) forming transition metal-ferrocyanide on the surface of the transition metal oxide particle by reacting transition metal ions and the ferrocyanide salt in the dispersion, wherein, in Step (a), the concentrations of the transition metal oxide particles and the ferrocyanide salt in the dispersion are 0.1 to 10.0 g/L and 0.001 to 1.0 M, respectively, and wherein, in Step (b), the reaction is performed at 20 to 40° C. for 2 to 26 hours. 2. The method of claim 1 , wherein, in Step (a), the transition metal oxide particles include one or more of TiO 2 , ZnO, CuO, Cu 2 O, MnO, MnO 2 , Mn 2 O 3 and Mn 3 O 4 . 3. A radionuclide adsorbent, comprising: a hollow space; and a transition metal-ferrocyanide shell formed on the space surface, wherein the transition metal-ferrocyanide shell has a structure in which a plurality of two-dimensional nano flakes overlap, or a structure in which a plurality of three-dimensional nano polyhedrons agglomerate. 4. The adsorbent of claim 3 , further comprising transition metal oxide particles, which are spaced apart from the transition metal-ferrocyanide shell, in the space. 5. The adsorbent of claim 3 , wherein the radionuclide adsorbent selectively removes radioactive cesium; or a divalent or higher cationic radionuclide. 6. The adsorbent of claim 5 , wherein the radioactive cesium or divalent or higher cationic radionuclide is present within a range of pH 1 to pH 11. 7. The adsorbent of claim 3 , wherein the content of water in the radionuclide adsorbent is 10 to 20 wt % with respect to the total content of the radionuclide adsorbent, and the specific surface area of the radionuclide adsorbent is 10 to 300 m 2 /g. 8. A bead-type radionuclide adsorbent, comprising: beads; and the radionuclide adsorbent of claim 3 , encapsulated in the beads. 9. The adsorbent of claim 8 , further comprising a divalent or higher cationic radionuclide adsorbent, encapsulated in the beads. 10. A composite radionuclide adsorbent, comprising: a core; and the radionuclide adsorbent of claim 3 , formed on the core. 11. The adsorbent of claim 10 , wherein the core is a magnetic core; or a core of a divalent or higher cationic radionuclide adsorbent. 12. A method of removing a radionuclide, comprising: dispersing the radionuclide adsorbent of claim 3 in a solution containing a radionuclide, and then recovering the radionuclide by adsorbing it onto the radionuclide adsorbent. 13. The method of claim 12 , further comprising: converting the transition metal-ferrocyanide in the recovered radionuclide adsorbent into a transition metal carbonate.