C-H Bond Addition across a Transient Uranium-Nitrido Moiety and Formation of a Parent Uranium Imido Complex.
Kimberly C MullaneHo RyuThibault CheissonLauren N GrantJi Young ParkBrian C ManorPatrick J CarrollMu-Hyun BaikDaniel J MindiolaEric J SchelterPublished in: Journal of the American Chemical Society (2018)
Uranium complexes in the +3 and +4 oxidation states were prepared using the anionic PN- (PN- = ( N-(2-(diisopropylphosphino)-4-methylphenyl)-2,4,6-trimethylanilide) ligand framework. New complexes include the halide starting materials, (PN)2UIIII (1) and (PN)2UIVCl2 (2), which both yield (PN)2UIV(N3)2 (3) by reaction with NaN3. Compound 3 was reduced with potassium graphite to produce a putative, transient uranium-nitrido moiety that underwent an intramolecular C-H activation to form a rare example of a parent imido complex, [K(THF)3][(PN)UIV(═NH)[ iPr2P(C6H3Me)N(C6H2Me2CH2)]] (4). Calculated reaction energy profiles strongly suggest that a C-H insertion becomes unfavorable when a reductant is present, offering a distinctively different reaction pathway than previously observed for other uranium nitride complexes.