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Counterion Dependence of Dinitrogen Activation and Functionalization by a Diniobium Hydride Anion

Shoi Suzuki, Yutaka Ishida, Hajime Kameo, Shigeyoshi Sakaki, Hiroyuki Kawaguchi

2020Angewandte Chemie International Edition20 citationsDOI

Abstract

Abstract We report the synthesis of anionic diniobium hydride complexes with a series of alkali metal cations (Li + , Na + , and K + ) and the counterion dependence of their reactivity with N 2 . Exposure of these complexes to N 2 initially produces the corresponding side‐on end‐on N 2 complexes, the fate of which depends on the nature of countercations. The lithium derivative undergoes stepwise migratory insertion of the hydride ligands onto the aryloxide units, yielding the end‐on bridging N 2 complex. For the potassium derivative, the N−N bond cleavage takes place along with H 2 elimination to form the nitride complex. Treatment of the side‐on end‐on N 2 complex with Me 3 SiCl results in silylation of the terminal N atom and subsequent N−N bond cleavage along with H 2 elimination, giving the nitride‐imide‐bridged diniobium complex.

Topics & Concepts

ChemistryHydrideCounterionAlkali metalMedicinal chemistryDerivative (finance)ImideInorganic chemistryReactivity (psychology)Surface modificationCleavage (geology)Bond cleavagePotassiumSilylationLithium (medication)MetalStereochemistryPolymer chemistryIonOrganic chemistryCatalysisPhysical chemistryEngineeringEndocrinologyEconomicsFracture (geology)MedicineFinancial economicsAlternative medicinePathologyGeotechnical engineeringOrganometallic Complex Synthesis and CatalysisCoordination Chemistry and OrganometallicsAmmonia Synthesis and Nitrogen Reduction
Counterion Dependence of Dinitrogen Activation and Functionalization by a Diniobium Hydride Anion | Litcius