Adsorption behaviors and atomistic mechanisms of iodate and iodide on hollow spherical allophane nanoparticles
APPLIED CLAY SCIENCE(2024)
摘要
The adsorption of radioactive iodate (IO3-) and iodide (I-) anions on natural minerals is critical for nuclear environmental safety. Allophane, a nanosized clay mineral, is considered to adsorb IO3- and I-, but the essential interactions between both anions and allophane remain unknown, due to the challenges of characterizing extremely small allophane nanoparticles in complex soils and obtaining high-purity natural allophane. In this work, neat allophane (Allo) nanoparticles were synthesized and used to study their adsorption for IO3- and Ianions. The adsorption kinetics, adsorption thermodynamics, pH -dependent adsorption-desorption, and competitive adsorption (Cl- and SO42-) were quantitatively investigated. Moreover, combined with advanced spectroscopic analyses of X-ray absorption fine structure (XAFS) and X-ray photoelectron spectroscopy (XPS), the atomistic adsorption mechanisms were illustrated. The adsorption capacities of Allo can be about 0.22 mmol/g for IO3- and 0.077 mmol/g for I-, which are at least one order of magnitude and 2.6 -fold higher than those of other clay minerals, respectively. The IO3- adsorption involved the ligand exchange and electrostatic attraction interactions, while the I- adsorption involved the Lewis acid-base and hydrogen -bond interactions. The innersphere adsorption mainly occurred in the wedge-shaped nanopores within Allo. The findings will improve the understanding of IO3- and I- adsorption on allophane, promote the practical applications of natural allophane in the management of nuclear wastes, and provide foundations for revealing the geochemical behaviors of iodine.
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关键词
Iodate,Iodide,Allophane,Adsorption behavior,Surface -interface interaction,Adsorption mechanism
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