Efficient removal of uranium from groundwater by phosphorylated chitosan-supported nano iron composites

In this study, a new type of phosphorylated chitosan-supported nano iron (CSP/Fe0) composite material. CSP/Fe0 had a high adsorption rate (99.25%) and a maximum adsorption capacity (627.34 mg g−1) when the conditions were pH = 6, 308.15 K and 12 h. CSP/Fe0 had a specific surface area of CSP/Fe0 was 6.02 m2 g−1, and has a mesoporous structure with more active sites (average pore size is 9.67 nm). The primary mechanism may be the complexation of U(VI) with abundant –OH, –NH2, P=O on the surface of the material and the reduction of nanoscale zero-valent iron. Therefore, it is indicated that the material has good potential in remediation of uranium-contaminated groundwater environment.