A rare Ta bis(imido)
complex, which has unique reactivity, was
prepared by manipulating the coordination sphere of a CCC-NHC pincer
Ta complex. The reaction of lithium tert-butylamide
with complex 1 yielded (1,3-bis(3′-butylimidazol-2′-yl-1′-idene)-2-phenylene)bis(tert-butylimido)tantalum(V) (2) as a
lithium iodide bridged dimer, as determined by the X-ray structure.
Complex 2 catalytically cyclized α,ω-aminoalkenes
to effect an oxidative amination of alkenes (dehydrogenation by C–H
activation) and produced a cyclic imine, an equivalent of reduced
substrate, and varying proportions of hydroamination. Various additives
and concentration impact the catalytic results. Computational and
experimental observations have led to an initial mechanistic hypothesis.
Based upon it, precatalyst 2 appears to be the first
example of a bifunctional catalyst (MH-NHR) that is highly selective
for nonpolar CC bonds in preference to polar CX bonds
for outer-sphere hydrogenation.
The coupling of N-heterocyclic azoles (imidazoles, benzimidazoles, triazoles) to bromobenzenes (1,2-; 1,3-; or 1,4) in a step-wise, sequential manner was accomplished by manipulation of reaction time and stoichiometry, which provided straightforward access to unsymmetrical bis(azolium) salts in only three isolation steps from commercially-available starting materials. Eight mono(azole) substituted bromobenzenes, four mono(azolium)bromobenzene salts, twelve unsymmetrical bis(azole)benzenes, and fourteen unsymmetrical bis(azolium) salts, which are precursors for pincer ligand complexes, are reported.
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