Economically friendly and facilely synthesized layered metal sulfide for efficient removal of aqueous cesium

Abstract

Cost-effective and efficient capture of Cs+ ions from radioactive wastewater is crucial for the sake of environmental protection and human health but full of challenges. In this paper, we present the suitability of a layered metal sulfide, namely Na2Sn3S7 (NaTS), for the remediation of cesium by ion exchange, with the merits of facile preparation, cheap composition, high efficiency and good selectivity. The cesium adsorption behaviors including kinetic time, saturation capacity, pH values, interfering ions, dose and recyclability were explored in detail. The experimental results show that it has a fast cesium uptake kinetics (ca. 60 min), with a maximum adsorption capacity of 140.32 mg/g and a wide pH resistance of 2.2–12.6. Also, it exhibits the strong affinity for low-level Cs+ ion even in the presence of excessive Na+/Ca2+ ions, actual water environment and the dose-related researches, with the highest distribution coefficient Kd value reaching 9.61 × 103 mL/g. More importantly, the cesium adsorption performances in the recycling study and the flow membrane-like filtration application are still impressive. These advantages demonstrated by NaTS render it very promising for the inexpensive and effective incarceration of aqueous cesium.