Issue 5, 2024

Structures of multinuclear U(vi) species on the hydroxylated α-SiO2(001) surface: insights from DFT calculations

Abstract

Multinuclear U(VI) species may be dominant in aqueous solutions under environmental conditions, while the structures of the multinuclear U(VI) species on mineral surfaces remain unclear. This work reports the structural and bonding properties of the possible surface complexes of three aqueous multinuclear U(VI) species, i.e., (UO2)2(OH)3+, (UO2)2(OH)22+ and (UO2)3(O)(OH)3+, on the hydroxylated α-SiO2(001) surface based on density functional theory (DFT) calculations. The results show that (UO2)2(OH)22+ and (UO2)3(O)(OH)3+ tend to form end-on structures at [triple bond, length as m-dash]SiO(H)SiO(H) sites, whereas (UO2)2(OH)3+ prefers a side-on structure at [triple bond, length as m-dash]SiO(H)O(H)-SiO(H)O(H) sites. The main driving forces for the formation of the multinuclear U(VI) surface complexes are electrostatic interactions and partially covalent chemical bonds. The Os-2p orbital hybridizes strongly with U-5f and U-6d orbitals, with a decreasing binding strength in the sequence of (UO2)2(OH)3+ > (UO2)2(OH)22+ > (UO2)3(O)(OH)3+ for the adsorption at the same type of surface sites. For the adsorption of the same multinuclear U(VI) species, the binding energy increases with the deprotonation extent of the identical sites. In addition, hydrogen bonds between surface hydroxyls and coordination waters as well as the acyl oxygen of uranyl moieties contribute to the formation of the multinuclear U(VI) surface complexes. The U-5f electron delocalization of far-side U atoms in the end-on structures of (UO2)2(OH)22+ and (UO2)3(O)(OH)3+ surface complexes also contributes slightly to the overall binding energy. Overall, this study provides insights into the adsorption behavior of multinuclear U(VI) on silica.

Graphical abstract: Structures of multinuclear U(vi) species on the hydroxylated α-SiO2(001) surface: insights from DFT calculations

Supplementary files

Article information

Article type
Paper
Submitted
11 Oct 2023
Accepted
28 Dec 2023
First published
02 Jan 2024

Phys. Chem. Chem. Phys., 2024,26, 4125-4134

Structures of multinuclear U(VI) species on the hydroxylated α-SiO2(001) surface: insights from DFT calculations

P. Gao, Q. Jin, Z. Chen, D. Wang, C. Tournassat and Z. Guo, Phys. Chem. Chem. Phys., 2024, 26, 4125 DOI: 10.1039/D3CP04941H

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