State Key Laboratory of Synthetic Chemistry and Department of Chemistry , The University of Hong Kong , Pokfulam Road , Hong Kong SAR , China.
HKU Shenzhen Institute of Research & Innovation , Shenzhen , China.
J Am Chem Soc. 2019 Jun 5;141(22):9027-9046. doi: 10.1021/jacs.9b03357. Epub 2019 May 22.
Reactivity study of novel metal carbene complexes can offer new opportunities in catalytic carbene transfer reactions as well as in other synthetic protocols. Metal complexes with quinoid carbene (QC) ligands are assumed to be key intermediates in a variety of metal-catalyzed QC transfer reactions using diazo quinones, which demands development of the chemistry of QC transfer of well characterized metal-QC complexes. Herein we report the isolation and QC transfer of ruthenium porphyrins [Ru(Por)(QC)] which contribute the first examples of (i) structurally characterized metal-QC complex (by X-ray crystallography) and (ii) isolated metal-QC complex that undergoes QC transfer reaction. The complexes [Ru(Por)(QC)] were prepared from reaction of [Ru(Por)(CO)] with diazo quinones and exhibited dual reactivity, i.e., hydrogen atom transfer (HAT) as well as QC transfer. The stoichiometric QC transfer reactions from these Ru-QC complexes to nitrosoarenes (ArNO) afforded nitrones in up to 90% yield, and the corresponding catalytic reactions were also developed. Both the stoichiometric and catalytic reactions for a series of QC ligands bearing electron-donating and -withdrawing substituents showed a reverse substituent effect on the QC transfer reactivity. Complexes [Ru(Por)(QC)] are also reactive toward C-H and X-H (X = N, S) bonds and can catalyze aerobic oxidation of 1,4-cyclohexadiene; their stoichiometric HAT reactions with unsaturated hydrocarbons gave product yields of up to 88%. The unique dual reactivity and electronic feature of [Ru(Por)(QC)] were studied by spectroscopic means and density functional theory (DFT) calculations.
新型金属卡宾配合物的反应性研究可为催化卡宾转移反应以及其他合成方案提供新的机会。具有醌型卡宾 (QC) 配体的金属配合物被认为是使用重氮醌的各种金属催化 QC 转移反应的关键中间体,这需要开发具有良好特征的 QC 转移的金属-QC 配合物的化学性质。在此,我们报告了钌卟啉[Ru(Por)(QC)]的分离和 QC 转移,这是(i)结构上表征的金属-QC 配合物(通过 X 射线晶体学)和(ii)经历 QC 转移反应的分离金属-QC 配合物的第一个实例。[Ru(Por)(QC)]配合物通过[Ru(Por)(CO)]与重氮醌的反应制备,并表现出双重反应性,即氢原子转移 (HAT) 和 QC 转移。这些 Ru-QC 配合物与硝基芳烃(ArNO)的定量 QC 转移反应以高达 90%的收率得到硝酮,并且还开发了相应的催化反应。一系列带有供电子和吸电子取代基的 QC 配体的 QC 转移反应的均相和催化反应都表现出对 QC 转移反应性的反向取代基效应。[Ru(Por)(QC)]配合物对 C-H 和 X-H(X = N,S)键也具有反应性,并可以催化 1,4-环己二烯的有氧氧化;它们与不饱和烃的定量 HAT 反应的产物收率高达 88%。[Ru(Por)(QC)]的独特双重反应性和电子特性通过光谱方法和密度泛函理论(DFT)计算进行了研究。
