Uranium Immobilization and Nanofilm Formation on Magnesium-Rich Minerals

Research output: Contribution to journalArticle

  • Authors:
  • Arjen Van Veelen
  • John R. Bargar
  • Gareth T W Law
  • Gordon E. Brown Jr
  • Roy Wogelius

Abstract

Polarization-dependent grazing incidence X-ray Absorption Spectroscopy (XAS) measurements were completed on oriented single crystals of magnesite [MgCO3] and brucite [Mg(OH)2] reacted with aqueous uranyl chloride above and below the solubility boundaries of schoepite (500, 50, and 5 ppm) at pH 8.3 and at ambient (PCO2 = 10-3.5) or reduced partial pressures of carbon dioxide (PCO2 = 10-4.5). X-ray Absorption Near Edge Structure (XANES) spectra show a striking polarization dependence ( = 0° and  = 90° relative to the polarization plane of the incident beam) and consistently demonstrated that the uranyl molecule was preferentially oriented with its Oaxial=U(VI)=Oaxial linkage at high angles (60-80º) to both magnesite () and brucite (0001). Extended X-ray Absorption Fine Structure (EXAFS) analysis shows that the “effective” number of U(VI) axial oxygens is the most strongly affected fitting parameter as a function of polarization. Furthermore, axial tilt in the surface thin films (thickness ~21 Å) is correlated with surface roughness [σ]. Our results show that hydrated uranyl(-carbonate) complexes polymerize on all of our experimental surfaces, and that this process is controlled by surface hydroxylation. These results provide new insights in the bonding configuration expected for uranyl complexes on the environmentally significant carbonate and hydroxide mineral surfaces.

Bibliographical metadata

Original languageEnglish
JournalEnvironmental Science & Technology
DOIs
StatePublished - 2016