Biosorption of uranium(VI) by bi-functionalized low cost biocomposite adsorbent

This paper presents biosorption properties of U(VI) by bi-functionalized biocomposite adsorbent consists of macro marine algae (Jania rubens) and yeast (Saccharomyces cerevisiae) immobilized on silica gel. Removal of U(VI) from aqueous solution by biosorption on biocomposite in a single component system with pH, initial concentration of U(VI), various contact time and temperature was investigated. Experimental equilibrium biosorption data was analyzed by five two-parameter equations, namely; Langmuir, Freundlich, Dubinin–Radushkevich (D–R), Temkin and Flory–Huggins isotherms. Among these isotherm models, the Temkin model fits better with the experimental data compared to others. Thermodynamic parameters, such as the enthalpy (ΔH°), entropy (ΔS°) and Gibbs free energy (ΔG°) were calculated from the slope and intercept of logKd vs. 1/T plot. Results suggested that the bi-functionalized low cost biocomposite adsorbent is a suitable biosorbent material to remove uranium ions from diluted aqueous solutions. On the other hand, immobilization of algae and yeast on silica gel was found to improve their interaction properties with uranium ions in biosorption process.

► Bi-functionalized biocomposite can be used effectively for the removal of U(VI).
► It was prepared with cheap, abundant, eco-friendly and easily available biomaterials.
► The biosorption of uranium is best represented by the Temkin isotherm model.
► The biosorption process is endothermic and feasible in nature.
► Immobilization of algae and yeast improves interaction properties with U(VI) ions.