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Literature DB >> 25242488

Harnessing redox activity for the formation of uranium tris(imido) compounds.

Nickolas H Anderson¹, Samuel O Odoh², Yiyi Yao², Ursula J Williams³, Brian A Schaefer¹, John J Kiernicki¹, Andrew J Lewis³, Mitchell D Goshert⁴, Phillip E Fanwick¹, Eric J Schelter³, Justin R Walensky⁴, Laura Gagliardi², Suzanne C Bart¹.

Abstract

Classically, late transition-metal organometallic compounds promote multielectron processes solely through the change in oxidation state of the metal centre. In contrast, uranium typically undergoes single-electron chemistry. However, using redox-active ligands can engage multielectron reactivity at this metal in analogy to transition metals. Here we show that a redox-flexible pyridine(diimine) ligand can stabilize a series of highly reduced uranium coordination complexes by storing one, two or three electrons in the ligand. These species reduce organoazides easily to form uranium-nitrogen multiple bonds with the release of dinitrogen. The extent of ligand reduction dictates the formation of uranium mono-, bis- and tris(imido) products. Spectroscopic and structural characterization of these compounds supports the idea that electrons are stored in the ligand framework and used in subsequent reactivity. Computational analyses of the uranium imido products probed their molecular and electronic structures, which facilitated a comparison between the bonding in the tris(imido) structure and its tris(oxo) analogue.

Entities: Chemical

Year: 2014 PMID： 25242488 DOI： 10.1038/nchem.2009

Source DB: PubMed Journal: Nat Chem ISSN： 1755-4330 Impact factor: 24.427

32 in total

1. The ability of the alpha,alpha'-diiminopyridine ligand system to accept negative charge: isolation of paramagnetic and diamagnetic trianions.

Authors: David Enright; Sandro Gambarotta; Glenn P A Yap; Peter H M Budzelaar
Journal: Angew Chem Int Ed Engl Date: 2002-10-18 Impact factor: 15.336

Harnessing redox activity for the formation of uranium tris(imido) compounds.

1. The ability of the alpha,alpha'-diiminopyridine ligand system to accept negative charge: isolation of paramagnetic and diamagnetic trianions.

2. Ligand-centred reactivity in diiminepyridine complexes.

3. Chemistry. Radical ligands confer nobility on base-metal catalysts.

4. Synthesis of uranium(VI) terminal oxo complexes: molecular geometry driven by the inverse trans-influence.

5. Multi-electron reduction facilitated by a trianionic pyridine(diimine) ligand.

6. Iron-catalyzed [2pi + 2pi] cycloaddition of alpha,omega-dienes: the importance of redox-active supporting ligands.

7. Metal-to-ligand electron transfer in diiminopyridine complexes of Mn-Zn. A theoretical study.

8. A direct route to bis(imido)uranium(V) halides via metathesis of uranium tetrachloride.

9. Oxidative addition to U(V)-U(V) dimers: facile routes to uranium(VI) bis(imido) complexes.

10. Stable uranium(VI) methyl and acetylide complexes and the elucidation of an inverse trans influence ligand series.

1. The bottom line.

2. Elucidating bonding preferences in tetrakis(imido)uranate(VI) dianions.

3. Thoroughly enthralling thulium.

4. Uranium electrocatalysis: The secret is in the ring.

5. Triamidoamine uranium(IV)-arsenic complexes containing one-, two- and threefold U-As bonding interactions.

6. The role of uranium-arene bonding in H₂O reduction catalysis.

7. Photochemical Synthesis of Transition Metal-Stabilized Uranium(VI) Nitride Complexes.

8. Nitrogen activation and cleavage by a multimetallic uranium complex.

9. Intra- and intermolecular interception of a photochemically generated terminal uranium nitride.

10. Thorium-phosphorus triamidoamine complexes containing Th-P single- and multiple-bond interactions.