Pappas Iraklis, Chirik Paul J
Department of Chemistry, Princeton University , Princeton, New Jersey 08544, United States.
J Am Chem Soc. 2016 Oct 12;138(40):13379-13389. doi: 10.1021/jacs.6b08009. Epub 2016 Oct 3.
The hydrogenolysis of titanium-nitrogen bonds in a series of bis(cyclopentadienyl) 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-CMe)(py-Ph)Rh-H (py-Ph = 2-pyridylphenyl, [Rh]-H) and (η-CR)(CO)Cr-H ([Cr]-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-dimethylhydrazine have been accomplished from the corresponding titanium(IV) complex using H as the stoichiometric H atom source. The data presented in this study provides the thermochemical foundation for the synthesis of NH by proton coupled electron transfer at a well-defined transition metal center.
本文描述了通过质子耦合电子转移(PCET)对一系列双(环戊二烯基)钛酰胺、酰肼和酰亚胺中钛-氮键的氢解反应。测定或计算了各种含氮配体之间的12种不同的N-H键解离自由能(BDFE),并确定了金属氧化态和N-配体取代基的影响。评估了两种金属氢化物配合物,(η-CMe)(py-Ph)Rh-H(py-Ph = 2-吡啶基苯基,[Rh]-H)和(η-CR)(CO)Cr-H([Cr]-H,R = H,Me)的形式氢原子转移反应活性,它们因相对较弱的M-H键强度以及激活和裂解分子氢的能力而被选中。尽管M-H BDFE相当,但观察到这两种化合物之间的反应活性不同,这可追溯到M-H键的酸度和分子的整体氧化还原电位有很大差异。使用[Rh]-H,以H作为化学计量的氢原子源,从相应的钛(IV)配合物中完成了氨、硅胺和N,N-二甲基肼的催化合成。本研究中提供的数据为在明确的过渡金属中心通过质子耦合电子转移合成NH提供了热化学基础。
