Catalytic Proton Coupled Electron Transfer from Metal Hydrides to Titanocene Amides, Hydrazides and Imides: Determination of Thermodynamic Parameters Relevant to Nitrogen Fixation

摘要

The hydrogenolysis of titanium-nitrogen bonds in a series of bis(cydopentadienyl) titanium amides, hydrazides and imides by proton coupled electron transfer (PCET) is described. Twelve different N-H bond dissociation free energies (BDFEs) among the various nitrogen-containing ligands were measured or calculated, and effects of metal oxidation state and N-ligand substituent were determined. Two metal hydride complexes, (η~5-C_5Me_5)(py-Ph)Rh-H (py-Ph ＝ 2-pyridylphenyl, [Rh]-H) and (η~5-C_5R_5)(CO)_3Cr-H ([Cr]~R-H, R＝ H, Me) were evaluated for formal H atom transfer reactivity and were selected due to their relatively weak M-H bond strengths yet ability to activate and cleave molecular hydrogen. Despite comparable M- H BDFEs, disparate reactivity between the two compounds was observed and was traced to the vastly different acidities of the M-H bonds and overall redox potentials of the molecules. With [Rh]-H, catalytic syntheses of ammonia, silylamine and N,N- dirnethylhydrazine have been accomplished from the corresponding titanium(Ⅳ) complex using H_2 as the stoichiometric H atom source. The data presented in this study provides the thermochemical foundation for the synthesis of NH_3 by proton coupled electron transfer at a well-defined transition metal center.