Comparative Nitrene-Transfer Chemistry to Olefinic Substrates Mediated by a Library of Anionic Mn(II) Triphenylamido-Amine Reagents and M(II) Congeners (M = Fe, Co, Ni) Favoring Aromatic over Aliphatic Alkenes

Abstract: Selective amination of σ and π entities such as C–H and CC bonds of substrates remains a challenging endeavor for current catalytic methodologies devoted to the synthesis of abundant nitrogen-containing chemicals. The present work addresses an approach toward discriminating aromatic over aliphatic alkenes in aziridination reactions, relying on the use of anionic metal reagents (M = Mn, Fe, Co, Ni) to attenuate reactivity in a metal-dependent manner. A family of MnII reagents bearing a triphenylamido-amine sca… Show more

“…For example, the |ρ/ρ • | ratio found for [Cu I (TMG 3 trphen)(NR)] + is dependent on the N-group substituent (0.50 for R = Ts, 0.98 for R = Ns), 31 34 Radical-type pathways were proposed for anionic Mn II , Fe II , and Co II complexes of a triphenylamido-amine ligand, with |ρ/ ρ • | ratios of 0.75 (Mn), 1.17 (Fe), and 1.00 (Co). 35 Low |ρ/ρ • | ratios were reported for styrene aziridination with [Fe II (dipyrrinato)(Cl)(NAd)] (0.04) 36 and toluene C(sp 3 )− H amination with [Co II (por)(NAr)] (0.008), 37 which are both dominated by spin-delocalization effects and are meanwhile known to react via radical-type mechanisms involving nitrene radicals. 10 T he n i t r e n e t r a n s f e r r e a c t i o n s m e d i intermediates were shown to have clear nitrene radical character, 15 the Hammett data ( Figure 6) provide strong evidence that the reactions do not proceed via direct (nitrene) radical addition to styrene (as observed for [Co II (por)(NR)] species), as |ρ/ρ • | values much smaller than 1 are then expected.…”

Electronically Asynchronous Transition States for C–N Bond Formation by Electrophilic [Co^III(TAML)]-Nitrene Radical Complexes Involving Substrate-to-Ligand Single-Electron Transfer and a Cobalt-Centered Spin Shuttle

“…For example, the |ρ/ρ • | ratio found for [Cu I (TMG 3 trphen)(NR)] + is dependent on the N-group substituent (0.50 for R = Ts, 0.98 for R = Ns), 31 34 Radical-type pathways were proposed for anionic Mn II , Fe II , and Co II complexes of a triphenylamido-amine ligand, with |ρ/ ρ • | ratios of 0.75 (Mn), 1.17 (Fe), and 1.00 (Co). 35 Low |ρ/ρ • | ratios were reported for styrene aziridination with [Fe II (dipyrrinato)(Cl)(NAd)] (0.04) 36 and toluene C(sp 3 )− H amination with [Co II (por)(NAr)] (0.008), 37 which are both dominated by spin-delocalization effects and are meanwhile known to react via radical-type mechanisms involving nitrene radicals. 10 T he n i t r e n e t r a n s f e r r e a c t i o n s m e d i intermediates were shown to have clear nitrene radical character, 15 the Hammett data ( Figure 6) provide strong evidence that the reactions do not proceed via direct (nitrene) radical addition to styrene (as observed for [Co II (por)(NR)] species), as |ρ/ρ • | values much smaller than 1 are then expected.…”

Electronically Asynchronous Transition States for C–N Bond Formation by Electrophilic [Co^III(TAML)]-Nitrene Radical Complexes Involving Substrate-to-Ligand Single-Electron Transfer and a Cobalt-Centered Spin Shuttle

“…The optimized transition state suggests a step-wise nitrene addition followed by proton transfer rather than a concerted nitrene insertion, as was proposed by Hou et al [49] This result agrees with previous experiment-theory research on nitrene two-step aziridination using substituted styrenes as substrate studies. [52,53] The nitrene addition pathway has a lower barrier than arene sp 2 HAA (17.0 vs. 27.0 kcal mol À 1 ), suggesting it is the preferred route for functionalization of the mesitylene sp 2 CÀ H bonds. NBO analysis shows that nitrene addition leads to an amido-copper intermediate as illustrated in Figure 3, with a Cu(I)-N À (Ns)(Mes + ) configuration.…”

“…[51] Significant spin density is found on both the nitrene nitrogen and the copper, Information). [52,53] The nitrene addition pathway has a lower barrier than arene sp 2 HAA (17.0 vs. 27.0 kcal mol À 1 ), suggesting it is the preferred route for functionalization of the mesitylene sp 2 CÀ H bonds. Additionally, for mesitylene, one expects an additional steric advantage for activation at a benzylic versus an arene CÀ H bond.…”

“…[59] Geometry optimization and frequency calculations were performed with B3LYP functional and 6-31 + G(d) basis set, which have been proven accurate in previous study of nitrene aziridination catalysts. [52,53] The calculated Gibbs free energies are computed in the gas-phase, at 298.15 K and 1.0 atm.…”

Nitrene Insertion into Aromatic and Benzylic C−H Bonds Catalyzed by Copper Complexes of Fluorinated Bis‐ and Tris(pyrazolyl)borates

“…This is especially of interest in the atom economic direct amination of unfunctionalised C-H bonds, either via a stepwise H atom abstraction/radical recombination or a more concerted nitrene insertion mechanism. [8][9][10][11][12][13][14][15][16][17][18] Despite the resulting high demand for understanding late 3d-transition imido metal species, comprehensive knowledge about the electronic and structural factors that contribute to their bond activation reactivity is still lacking. Most structurally characterised late-3d-transition metal imido complexes are found in a low-spin state which mitigates their reactivity and thus allowed for their isolation in the first place.…”

Imido Cobalt Complexes with Imidyl Character