Uranium(III)-carbon multiple bonding supported by arene delta-bonding in mixed-valence hexauranium nanometre-scale rings

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dc.contributor.authorWooles, Ashley J.
dc.contributor.authorMills, David P.
dc.contributor.authorTuna, Floriana
dc.contributor.authorMcInnes, Eric J. L.
dc.contributor.authorLaw, Gareth T. W.
dc.contributor.authorFuller, Adam J.
dc.contributor.authorKremer, Felipe
dc.contributor.authorRidgway, Mark C.
dc.contributor.authorLewis, William
dc.contributor.authorGagliardi, Laura
dc.contributor.authorVlaisavljevich, Bess
dc.contributor.authorLiddle, Stephen T.
dc.date.accessioned2019-10-10T01:54:49Z
dc.date.available2019-10-10T01:54:49Z
dc.date.issued2018
dc.date.updated2019-04-21T08:30:21Z
dc.description.abstractDespite the fact that non-aqueous uranium chemistry is over 60 years old, most polarised-covalent uranium-element multiple bonds involve formal uranium oxidation states IV, V, and VI. The paucity of uranium(III) congeners is because, in common with metal-ligand multiple bonding generally, such linkages involve strongly donating, charge-loaded ligands that bind best to electron-poor metals and inherently promote disproportionation of uranium(III). Here, we report the synthesis of hexauranium-methanediide nanometre-scale rings. Combined experimental and computational studies suggest overall the presence of formal uranium(III) and (IV) ions, though electron delocalisation in this Kramers system cannot be definitively ruled out, and the resulting polarised-covalent U = C bonds are supported by iodide and delta-bonded arene bridges. The arenes provide reservoirs that accommodate charge, thus avoiding inter-electronic repulsion that would destabilise these low oxidation state metalligand multiple bonds. Using arenes as electronic buffers could constitute a general synthetic strategy by which to stabilise otherwise inherently unstable metal-ligand linkages.en_AU
dc.description.sponsorshipWe thank the Royal Society (grant UF110005), European Research Council (grants StG239621 and CoG612724), Engineering and Physical Sciences Research Council (grants EP/F030517/1, EP/M027015/1, and EP/P001386/1), Natural Environment Research Council (NE/M014088/1), UK EPSRC National EPR Service, The University of Manchester, and the UK National Nuclear Laboratory for generously supporting this work. Diamond Light Source and the Canberra Australian Synchrotron are thanked for the allocation of XANES beam-time (awards SP9621, SP13559, and M7964). Computational work was supported by the U.S. Department of Energy Director, Office of Basic Energy Sciences (award DE-SC002183) and the High Performance Computing systems of the University of South Dakota. Dr Shu Hayama (Diamond Light Source) and Prof.en_AU
dc.format.mimetypeapplication/pdfen_AU
dc.identifier.issn2041-1723en_AU
dc.identifier.urihttp://hdl.handle.net/1885/173600
dc.language.isoen_AUen_AU
dc.provenanceThis article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.en_AU
dc.publisherMacmillan Publishers Ltden_AU
dc.rights© 2018 The Author(s)en_AU
dc.rights.licenseCreative Commons Attribution 4.0 International Licenseen_AU
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/en_AU
dc.sourceNature Communicationsen_AU
dc.titleUranium(III)-carbon multiple bonding supported by arene delta-bonding in mixed-valence hexauranium nanometre-scale ringsen_AU
dc.typeJournal articleen_AU
dcterms.accessRightsOpen Accessen_AU
local.bibliographicCitation.issue2097en_AU
local.bibliographicCitation.lastpage11en_AU
local.bibliographicCitation.startpage1en_AU
local.contributor.affiliationWooles, Ashley J., University of Manchesteren_AU
local.contributor.affiliationMills, David P., University of Manchesteren_AU
local.contributor.affiliationTuna, Floriana, University of Manchesteren_AU
local.contributor.affiliationMcInnes, Eric J. L., University of Manchesteren_AU
local.contributor.affiliationLaw, Gareth T. W., School of Chemistry, The University of Manchesteren_AU
local.contributor.affiliationFuller, Adam J., University of Manchesteren_AU
local.contributor.affiliationKremer, Felipe, College of Science, ANUen_AU
local.contributor.affiliationRidgway, Mark C., College of Science, ANUen_AU
local.contributor.affiliationLewis, William, University of Nottinghamen_AU
local.contributor.affiliationGagliardi, Laura, University of Minnesotaen_AU
local.contributor.affiliationVlaisavljevich, Bess, University of Minnesotaen_AU
local.contributor.affiliationLiddle, Stephen T., University of Manchesteren_AU
local.contributor.authoruidKremer, Felipe, u5077096en_AU
local.contributor.authoruidRidgway, Mark C., u9001886en_AU
local.description.notesImported from ARIESen_AU
local.identifier.absfor020406 - Surfaces and Structural Properties of Condensed Matteren_AU
local.identifier.absseo970102 - Expanding Knowledge in the Physical Sciencesen_AU
local.identifier.ariespublicationu4485658xPUB1999en_AU
local.identifier.citationvolume9en_AU
local.identifier.doi10.1038/s41467-018-04560-7en_AU
local.identifier.scopusID2-s2.0-85047865392
local.identifier.thomsonID000433297900008
local.publisher.urlhttps://www.nature.comen_AU
local.type.statusPublished Versionen_AU

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