The Propensity of Uranium-Peroxide Systems to Preserve Nanosized Assemblies.
Mateusz DembowskiChristopher A CollaPing YuJie QiuJennifer E S SzymanowskiWilliam H CaseyPeter C BurnsPublished in: Inorganic chemistry (2017)
Understanding the stability fields and decomposition products of various metal- and actinide-oxide nanoclusters is essential for their development into useful materials for industrial processes. Herein, we explore the spontaneous transformation of the sulfate-centered, phosphate functionalized uranyl peroxide nanocluster {U20P6} to {U24} under aqueous ambient conditions using time-resolved small-angle X-ray scattering, Raman, and 31P NMR spectroscopy. We show that the unusual μ-η1:η2 bridging mode of peroxide between uranyl ions observed in {U20P6} may lead to its rapid breakdown in solution as evidenced by liberation of phosphate groups that were originally present as an integral part of its cage structure. Remarkably, the uranyl peroxide moieties present after degradation of {U20P6} undergo cation-mediated reassembly into the {U24} cluster, demonstrating the propensity of the uranyl peroxide systems to preserve well-defined macro-anions.