Jianfeng Lin scite author profile

The immobilization of U(vi) at the solid-water interface is an important process affecting its transportation and migration in the environment, and is predominantly controlled by the sorption behavior of U(vi). In this study, U(vi) sorption on Fe(ii) and Fe(iii) oxyhydroxides prepared by a coprecipitation method was studied under a range of physicochemical conditions, including pH, ionic strength, presence of humic acid (HA) and temperature. The results showed that the sorption of U(vi) on iron oxyhydroxides is chemical, and that the principal rate limitation is due to intraparticle diffusion. The sorption of U(vi) on iron oxyhydroxides is strongly dependent on pH, but only weakly dependent on ionic strength through the entire pH range studied. Under acidic conditions, the presence of HA increases U(vi) sorption to a large degree, but an inhibiting effect on the sorption of U(vi) can be observed under alkaline conditions, due to the formation of soluble U(vi)-HA complexes. The sorption of U(vi) on iron oxyhydroxides is an endothermic process and favors high temperatures. The surface complexation model suggests three dominant monodentate inner-sphere complexes of [triple bond, length as m-dash]Fe(s)OUO2(+) (log K = 1.65), [triple bond, length as m-dash]Fe(w)OUO2OH(0) (log K = -8.00), and [triple bond, length as m-dash]Fe(w)OUO2(CO3)2(3-) (log K = 17.50), contributing to U(vi) sorption on iron oxyhydroxides over the entire observed pH range.

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Plutonium partitioning in three-phase systems with water, colloidal particles, and granites: New insights into distribution coefficients

Xie¹,

Lin²,

Zhou³

et al. 2014

Chemosphere

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The level, distribution and source of artificial radionuclides in surface soil from Inner Mongolia, China

Dang

Hai-tao

et al. 2021

Journal of Environmental Radioactivity

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The dynamic role of natural colloids in enhancing plutonium transport through porous media

Xie

Lin

et al. 2013

Chemical Geology

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Jianfeng Lin

Determination of ultra-trace level plutonium isotopes in soil samples by triple-quadrupole inductively coupled plasma-mass spectrometry with mass-shift mode combined with UTEVA chromatographic separation

The immobilization of U(vi) on iron oxyhydroxides under various physicochemical conditions

Plutonium partitioning in three-phase systems with water, colloidal particles, and granites: New insights into distribution coefficients

The level, distribution and source of artificial radionuclides in surface soil from Inner Mongolia, China

The dynamic role of natural colloids in enhancing plutonium transport through porous media

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