Electrochemical immobilization of Cs in single-crystalline SYNROC

The development of a disposal technique for the radiotoxic ¹³⁷Cs in nuclear wastes is one of the most urgent issues in nuclear fuel technology. An effective disposal method of ¹³⁷Cs is to immobilize it in a synthetic rock (SYNROC) material: cesium titanate hollandite, ¹³⁷Cs_xTi₈O₁₆ (I4/m, , ). Practical applications of ¹³⁷Cs_xTi₈O₁₆ have been restricted so far because the conventional synthetic method requires strong chemical reducers and reaction temperatures higher than 1250 °C. In this report, we present a milder preparation method of Cs_xTi₈O₁₆ by electrolysis of a mixture of Cs₂MoO₄ and TiO₂ in ambient atmosphere at 900 °C. The Cs content in the resultant single-crystalline Cs_1.35Ti₈O₁₆ is competitive with the highest value in polycrystalline Cs_1.36±0.03Ti₈O₁₆ prepared by the conventional synthetic method. The electrochemical preparation of Cs_1.35Ti₈O₁₆ is a promising way to immobilize a high quantity of ¹³⁷Cs ions in a stable form of single-crystalline SYNROC.