Litcius/Paper detail

Supramolecular Assembly of U(IV) Clusters and Superatoms with Unconventional Countercations

Ian Colliard, Gregory Morrison, Hans‐Conrad zur Loye, May Nyman

2020Journal of the American Chemical Society52 citationsDOIOpen Access PDF

Abstract

Superatoms are nanometer-sized molecules or particles that form ordered lattices, mimicking their atomic counterparts. Hierarchical assembly of superatoms gives rise to emergent properties in lattices of quantum dots, p-block clusters, and fullerenes. Here, we introduce a family of uranium-oxysulfate cluster anions whose hierarchical assembly in water is controlled by two parameters: acidity and the lanthanide or transition-metal countercation. In acid, larger LnIII (Ln = La–Ho) link hexamer (U6) oxoclusters into body-centered cubic frameworks, while smaller LnIII (Ln = Er–Lu and Y) promote linking of 14 U6 clusters into hollow superclusters (U84 superatoms). U84 assembles into superlattices including cubic-closest packed, body-centered cubic, and interpenetrating networks, bridged by interstitial countercations and U6 clusters. Divalent transition metals (TM = MnII and ZnII) charge-balance and promote the fusion of 10 U6 and 10 U monomers into a wheel-shaped cluster (U70). Dissolution of U70 in organic media reveals (by small-angle X-ray scattering) that differing supramolecular assemblies are accessed, controlled by TMII-linking of U70 clusters. Magnetic measurements of these assemblies reveal Curie–Weiss behavior at high temperatures, without pairing of the 5f2-electrons down to 2 K.

Topics & Concepts

ChemistryCluster (spacecraft)Supramolecular chemistryCrystallographyChemical physicsSuperatomLanthanideCrystal structureElectronic structureComputational chemistryIonProgramming languageComputer scienceOrganic chemistryRadioactive element chemistry and processingLanthanide and Transition Metal ComplexesInorganic Chemistry and Materials