Solution and Solid State Structural Chemistry of Th(IV) and U(IV) 4-Hydroxybenzoates

Abstract: Organic ligands with carboxylate functionalities have been shown to affect the solubility, speciation, and overall chemical behavior of tetravalent metal ions. While many reports have focused on actinide complexation by relatively simple monocarboxylates such as amino acids, in this work we examined Th(IV) and U(IV) complexation by 4-hydroxybenzoic acid in water with the aim of understanding the impact that the organic backbone has on the solution and solid state structural chemistry of thorium(IV) and uranium… Show more

“…By comparison, compound 1 was only observed above ambient temperatures. Heating the solutions from which 1 – 4 crystallized above 100 °C ( 1 – 3 ) or 120 °C ( 4 ) resulted in a color change consistent with the formation of UO 2 nanoparticles as has been previously reported . Indeed, the powder X‐ray diffraction was consistent with the formation of UO 2 (Figures S11–S14 in Supporting Information).…”

“…Reaction temperature is similarly well known to influence product formation . Compounds 2 – 4 were observed over a wide temperature range, 25–80 °C, though as mentioned previously the optimal temperature for crystallization and product yield was found to be 50 °C.…”

“…With respect to the third possibility, the disordering of μ 3 ‐OH/O has been observed for hexanuclear clusters . In many cases, the disordered sites have U−O bond distances intermediate (2.34–2.37 Å) those of U‐μ 3 ‐O (2.19–2.28 Å) and U‐μ 3 ‐OH (2.42–2.48 Å) . For example, in 4 the U‐μ 3 ‐O/OH bond distances were found to be 2.35(2) Å, consistent with partial (50 %) occupancy of μ 3 ‐O and μ 3 ‐OH.…”

“…In all cases, the occupancy of Cl refined to 1; disordering of the terminal Cl sites with H 2 O resulted in an unsatisfactory refinement. With respect to the third possibility, the disordering of μ 3 ‐OH/O has been observed for hexanuclear clusters . In many cases, the disordered sites have U−O bond distances intermediate (2.34–2.37 Å) those of U‐μ 3 ‐O (2.19–2.28 Å) and U‐μ 3 ‐OH (2.42–2.48 Å) .…”

“…The increase in nuclearity that is observed from the tetrameric species in 2 at lower water content compared to hexameric units in 3 and 4 at higher water content is consistent with expected trends in hydrolysis and condensation. Indeed, a number of related hexanuclear An IV ‐carboxylate clusters have been isolated from aqueous solution under relatively similar reaction conditions …”

Mononuclear to Polynuclear U^IV Structural Units: Effects of Reaction Conditions on U‐Furoate Phase Formation

“…By comparison, compound 1 was only observed above ambient temperatures. Heating the solutions from which 1 – 4 crystallized above 100 °C ( 1 – 3 ) or 120 °C ( 4 ) resulted in a color change consistent with the formation of UO 2 nanoparticles as has been previously reported . Indeed, the powder X‐ray diffraction was consistent with the formation of UO 2 (Figures S11–S14 in Supporting Information).…”

“…Reaction temperature is similarly well known to influence product formation . Compounds 2 – 4 were observed over a wide temperature range, 25–80 °C, though as mentioned previously the optimal temperature for crystallization and product yield was found to be 50 °C.…”

“…With respect to the third possibility, the disordering of μ 3 ‐OH/O has been observed for hexanuclear clusters . In many cases, the disordered sites have U−O bond distances intermediate (2.34–2.37 Å) those of U‐μ 3 ‐O (2.19–2.28 Å) and U‐μ 3 ‐OH (2.42–2.48 Å) . For example, in 4 the U‐μ 3 ‐O/OH bond distances were found to be 2.35(2) Å, consistent with partial (50 %) occupancy of μ 3 ‐O and μ 3 ‐OH.…”

“…In all cases, the occupancy of Cl refined to 1; disordering of the terminal Cl sites with H 2 O resulted in an unsatisfactory refinement. With respect to the third possibility, the disordering of μ 3 ‐OH/O has been observed for hexanuclear clusters . In many cases, the disordered sites have U−O bond distances intermediate (2.34–2.37 Å) those of U‐μ 3 ‐O (2.19–2.28 Å) and U‐μ 3 ‐OH (2.42–2.48 Å) .…”

“…The increase in nuclearity that is observed from the tetrameric species in 2 at lower water content compared to hexameric units in 3 and 4 at higher water content is consistent with expected trends in hydrolysis and condensation. Indeed, a number of related hexanuclear An IV ‐carboxylate clusters have been isolated from aqueous solution under relatively similar reaction conditions …”

Mononuclear to Polynuclear U^IV Structural Units: Effects of Reaction Conditions on U‐Furoate Phase Formation

Metal–Organic Frameworks Based on Group 3 and 4 Metals

Structural Snapshots of Cluster Growth from {U₆} to {U₃₈} During the Hydrolysis of UCl₄