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Nowadays, the isolation of radioactive waste (RW) from the biosphere is one of the main problem of nuclear industry. In accordance with the requirements of radiation safety geological isolation of RW requires a multi-barrier safety system, and natural clays are considered to be one of the most promising components. A lot of works are devoted to radionuclides interaction with bentonite clays. In this work we focused on kaolinite, which is a common impurity in bentonites and is also widespread in soils. The Eu(III) sorption behavior on kaolinite samples with different mineral composition (containing admixture of montmorillonite, TiO2 and purified) was studied. According to previous proceedings, the binding of lanthanides to clay surface occurs in two pathways: by the mechanism of ionic exchange and by complexation with surface groups 1. Varying the experimental conditions made it possible to evaluate the contribution of different interaction mechanisms to europium sorption on kaolinites. In addition, the influence of the europium binding mechanism on its desorption was determined. Various techniques, e.g. XRD, XRF, BET absorption, etc. were used to clay characterization. Batch sorption and desorption experiments were performed under various pH, ionic strengths and radionuclide concentrations (10-11-10-6 M), thermodynamic modeling of the resulting data was carried out. It was shown, that background electrolyte strongly affects the Eu(III) uptake. At low ionic strengths (0.01 M) and low pH ionic exchange mechanism dominates, while at high pH (pH >6) and high ionic strengths (1 M) the complexation mechanism prevails. Depending on the interaction mechanism, significant differences in Eu(III) desorption were observed. It’s necessary to combine ion exchange and surface complexation reactions to create adequate Eu(III) sorption model. Since the constant of Eu(III) ion exchange onto clays differs from study to study, additional experiments were performed to determine this impact on Eu(III) sorption on kaolinite. References 1. Verma, P. K. et al. Eu(III) sorption onto various montmorillonites : Experiments and modeling. Appl. Clay Sci. 175, 1–8 (2019).