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[AnI<sub>3</sub>(THF)<sub>4</sub>] (An = Np, Pu) Preparation Bypassing An<sup>0</sup> Metal Precursors: Access to Np<sup>3+</sup>/Pu<sup>3+</sup> Nonaqueous and Organometallic Complexes

Conrad A. P. Goodwin, Michael T. Janicke, Brian L. Scott, Andrew J. Gaunt

2021Journal of the American Chemical Society31 citationsDOIOpen Access PDF

Abstract

Direct comparison of homologous molecules provides a foundation from which to elucidate both subtle and patent changes in reactivity patterns, redox processes, and bonding properties across a series of elements. While trivalent molecular U chemistry is richly developed, analogous Np or Pu research has long been hindered by synthetic routes often requiring scarcely available metallic-phase source material, high-temperature solid-state reactions producing poorly soluble binary halides, or the use of pyrophoric reagents. The development of routes to nonaqueous Np3+/Pu3+ from widely available precursors can potentially transform the scope and pace of research into actinide periodicity. Here, aqueous stocks of An4+ (An = Np, Pu) are dehydrated to well-defined [AnCl4(DME)2] (DME = 1,2-dimethoxyethane), and then a single-step halide exchange/reduction employing Me3SiI produces [AnI3(THF)4] (THF = tetrahydrofuran) in a high to nearly quantitative crystalline yield (with I2 and Me3SiCl as easily removed byproducts). We demonstrate the synthetic utility of these An-iodide molecules, prepared by metal0-free routes, through characterization of archetypal complexes including the tris-silylamide, [Np{N(SiMe3)2}3], and bent metallocenes, [An(C5Me5)2(I)(THF)] (An = Np, Pu)─chosen because both motifs are ubiquitous in Th, U, and lanthanide research. The synthesis of [Np{N(Se═PPh2)2}3] is also reported, completing an isomorphous series that now extends from U to Am and is the first characterized Np3+–Se bond.

Topics & Concepts

ChemistryDimethoxyethaneTetrahydrofuranHalideMoleculeIodideLanthanideReactivity (psychology)ReagentActinideInorganic chemistryPhysical chemistryOrganic chemistrySolventMedicineElectrolyteElectrodePathologyAlternative medicineIonInorganic Chemistry and MaterialsOrganometallic Complex Synthesis and CatalysisCoordination Chemistry and Organometallics
[AnI<sub>3</sub>(THF)<sub>4</sub>] (An = Np, Pu) Preparation Bypassing An<sup>0</sup> Metal Precursors: Access to Np<sup>3+</sup>/Pu<sup>3+</sup> Nonaqueous and Organometallic Complexes | Litcius