A hierarchical cerium metal organic framework-graphene oxide heterostructure composite for rapid and efficient scavenging of fluoride

Abstract

The rational design of functional heretrostructures with integrated advantages for the efficient adsorption and removal of fluoride is important for water pollution control. In this study, a cerium metal organic framework-graphene oxide heterostructure composite (CeMOF@GO) is successfully prepared through ultrasonic irradiation and vapor diffusion-assisted interfacial growth. CeMOF@GO with hierarchical structure boosts the mass transport of fluoride with adsorption time reduced to 25 min. By virtue of the specific ligand exchange between adsorbed H2O/OH− at metal defect sites and fluoride ions, such unique CeMOF@GO can be utilized for fluoride removal, showing satisfactory adsorption capacity (151.5 mg g−1), excellent specific affinity (with a distribution coefficient of up to 21.865 L g−1), glorious salt tolerance (8.0 mol L−1 of nitrate), wide pH applicability and eminent recycling ability. The practical application of CeMOF@GO is well demonstrated by the selective scavenging of fluoride from diverse environmental water samples. This work is expected to provide a reliable defluorination approach, and bridge the gap between academic MOF-based adsorbent research and practical environmental application.