Synthesis of phytic acid-decorated titanate nanotubes for high efficient and high selective removal of U(VI)
Fang Yuan1,2, Chunfang Wu1,2, Yawen Cai1,2, Linjuan Zhang3, Jianqiang Wang3, Lanhua Chen1,2, Xiangke Wang1,2,4, Shitong Yang1,2,*, Shuao Wang1,2,*
Abstract: In this study, the inorganic-organic hybrid of PA/TNTs was synthesized and characterized by using multiple ****ysis techniques. Batch experiments were conducted to investigate the removal performance of PA/TNTs towards U(VI). The sorption kinetics procedure achieved equilibrium within 6 h. The maximum sorption capacity at 293 K and pH 5.0 was calculated to be 1.16×10-3 mol/g. In addition, the PA/TNTs composite showed a higher sorption selectivity towards U(VI) over many other metal ions. The ionic strength experiments, desorption results, solid fluorescence, extended X-ray adsorption fine structure (EXAFS) and Fourier transform infrared spectroscopy (FTIR) ****ysis suggested the domain sorption mechani** was inner-sphere complexation rather than ion exchange or precipitation. Overall, the synthesized PA/TNTs composite could be utilized as a cost-effective material for the removal of U(VI) from wastewater.
