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Interconversions between Uranium Mono-metallofullerenes: Mechanistic Implications and Role of Asymmetric Cages

Wenting Cai, Janet Alvarado, Alejandro J. Metta‐Magaña, Ning Chen, Luís Echegoyen

2020Journal of the American Chemical Society30 citationsDOI

Abstract

The isolation and structural characterization of three new monometallic uranium metallofullerenes, U@D2(21)-C84, U@Cs(15)-C86, and U@C1(11)-C86, allowed us to complete an interconversion map for all the characterized uranium mono-metallofullerenes. The topological analysis reveals that asymmetric fullerene cages, which may be formed by roll and wrap processes directly from graphene, are the starting points for a series of highly symmetric fullerene structures via top-down and bottom-up growth mechanisms. Moreover, some asymmetric intermediates, such as C1(28324)-C80, can serve as precursors to form either larger cages in consecutive growing processes or smaller cages during cascade shrinking processes. This work provides evidence for both top-down and bottom-up processes happening simultaneously during the arcing processes. This study also sheds light on the prediction of possible cage structures for minor products produced in low yields in the soot.

Topics & Concepts

ChemistryFullereneUraniumCarbon fibersCascadeOrganic chemistryMetallurgyMaterials scienceComposite numberComposite materialChromatographyFullerene Chemistry and ApplicationsAdvanced Chemical Physics StudiesSynthesis and Properties of Aromatic Compounds