Density Functional Model Study of Uranyl Adsorption on the Solvated (001) Surface of Kaolinite

We studied the adsorption of uranyl on bare and solvated models of the octahedral (001) surface of kaolinite using first-principles density functional calculations. Inner-sphere bidentate complexes adsorbed at partially deprotonated short-bridge sites AlOO(H) and long-bridge sites AlO−AlO(H) were modeled as the most probable adsorption complexes. The uranyl complex at the doubly deprotonated AlO−AlO long-bridge site exhibits a third contact to the surface, not present in the complex at the corresponding short-bridge site. Adsorption at short-bridge sites is energetically favored compared to complexes at long-bridge sites. We were unable to determine stable adsorption complexes of uranyl at singly deprotonated AlO−AlOH long-bridge sites. Surface solvation, approximated via an adsorbed monolayer of water molecules, hardly affects the adsorption complexes of uranyl. Contacts U−Oeq in the equatorial plane shorten by 2 pm, U−Al distances elongate by up to 4 pm. In contrast to the bare surface, adsorption compl...