Removal of Cs(I) and Sr(II) from Liquid Media with Crystalline Titanosilicates Prepared by Hydrothermal Synthesis

The water pollution with Cs⁺ and Sr²⁺ radionuclides in the nuclear fuel cycle is a pressing environmental problem. The selective adsorption of radionuclides onto inorganic sorbents of zeolite structure, exhibiting the ion-sieve effect, is a promising procedure for the treatment of the liquid radioactive waste formed. Titanosilicate of the CST structural type, corresponding to the formula Na_1.64H_0.36Ti₂O₃SiO₄(H₂O)_1.84, was prepared by hydrothermal synthesis performed at 190°С and a pressure of 1.3 MPa for 24 h. This sorbent allows efficient removal of the Cs⁺ and Sr²⁺ cations from liquid media. The sorption exchange capacity q_eq is 1.58 mg-equiv/g for Cs⁺ and 2.56 mg-equiv/g for Sr²⁺. Preliminary oxidation of Ti³⁺ to Ti⁴⁺ with H₂O₂ increases the sorption capacity for Cs⁺ and Sr²⁺. The phase composition, elemental composition, specific surface area, and pore size of the materials synthesized were determined. The titanosilicates obtained can be used as sorbents for liquid radioactive waste treatment.