We detail the relative role of ancillary ligand electron-donating ability in comparison to the locus of oxidation (either metal or ligand) on the electrophilic reactivity of a series of oxidized Mn salen nitride complexes. The electron-donating ability of the ancillary salen ligand was tuned the -phenolate substituent (R = CF, H, Bu, OPr, NMe, NEt) in order to have minimal effect on the geometry at the metal center. Through a suite of experimental (electrochemistry, electron paramagnetic resonance spectroscopy, UV-vis-NIR spectroscopy) and theoretical (density functional theory) techniques, we have demonstrated that metal-based oxidation to [Mn(Sal)N] occurs for R = CF, H, Bu, OPr, while ligand radical formation to [Mn(Sal)N]˙ occurs with the more electron-donating substituents R = NMe, NEt. We next investigated the reactivity of the electrophilic nitride with triarylphosphines to form a Mn phosphoraneiminato adduct and determined that the rate of reaction decreases as the electron-donating ability of the salen -phenolate substituent is increased. Using a Hammett plot, we find a break in the Hammett relation between R = OPr and R = NMe, without a change in mechanism, consistent with the locus of oxidation exhibiting a dominant effect on nitride reactivity, and not the overall donating ability of the ancillary salen ligand. This work differentiates between the subtle and interconnected effects of ancillary ligand electron-donating ability, and locus of oxidation, on electrophilic nitride reactivity.
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| http://dx.doi.org/10.1039/d3sc05403a | DOI Listing |
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