Manzano Rubén, Wurm Thomas, Rominger Frank, Hashmi A Stephen K
CaRLa - Catalysis Research Laboratory, Im Neuenheimer Feld 584, 69120 Heidelberg (Germany).
Chemistry. 2014 Jun 2;20(23):6844-8. doi: 10.1002/chem.201402560. Epub 2014 Apr 25.
A number of saturated abnormal N-heterocyclic carbene (NHC) complexes of gold, in combination with KBAr(F) 4 as activator, were successfully applied in the chemoselective addition of hydrazine to alkynes. The reaction proceeds even at room temperature, which was not possible to date with gold catalysts. The reaction can be applied to a number of substituted arylalkynes. With alkylalkynes the yields are low. The saturated abnormal NHC ligands are resistant to isomerization to the saturated normal NHC coordination mode under basic reaction conditions. Under acidic conditions, a simple protonation at the nitrogen atom not neighboring the carbene center was observed and unambiguously characterized by an X-ray crystal-structure analysis. Computational studies confirm that such an isomerization would be highly exothermic, the observed kinetic stability probably results from the need to shift two protons in such a process.
一些金的饱和异常氮杂环卡宾(NHC)配合物,与KBAr(F)₄作为活化剂相结合,成功应用于肼对炔烃的化学选择性加成反应。该反应即使在室温下也能进行,而迄今为止使用金催化剂时这是无法实现的。该反应可应用于多种取代芳基炔烃。对于烷基炔烃,产率较低。饱和异常NHC配体在碱性反应条件下对异构化为饱和正常NHC配位模式具有抗性。在酸性条件下,观察到在不与卡宾中心相邻的氮原子处发生简单的质子化,并通过X射线晶体结构分析明确表征。计算研究证实,这种异构化将是高度放热的,观察到的动力学稳定性可能源于在此过程中需要转移两个质子。