Department of Chemistry (Organic Chemistry), University of Cologne , Greinstrasse 4, 50939 Cologne, Germany.
J Am Chem Soc. 2016 Mar 2;138(8):2670-7. doi: 10.1021/jacs.5b11796. Epub 2016 Feb 22.
As reported by Scheidt and Bode in 2005, sterically nonencumbered α,β-enals are readily converted to saturated esters in the presence of alcohols and N-heterocyclic carbene catalysts, e.g., benzimidazolylidenes or triazolylidenes. However, substituents at the α- or β-position of the α,β-enal substrate are typically not tolerated, thus severely limiting the substrate spectrum. On the basis of our earlier mechanistic studies, a set of N-Mes- or N-Dipp-substituted 1,2,4-triazolium salts were synthesized and evaluated as (pre)catalysts in the redox esterification of various α- or β-substituted enals. In particular the 1,4-bis-Mes/Dipp-1,2,4-triazolylidenes overcome the above limitations and efficiently catalyze the redox esterification of a whole series of α/β-substituted enals hitherto not amenable to NHC-catalyzed transformations. The synthetic value of 1,4-bis-Mes/Dipp-1,2,4-triazolylidenes is further demonstrated by the one-step bicyclization of 10-oxocitral to (racemic) nepetalactone in diastereomerically pure form.
2005 年,Scheidt 和 Bode 报道称,在醇和 N-杂环卡宾催化剂(如苯并咪唑啉鎓或三唑啉鎓)存在下,空间位阻较小的α,β-烯醛很容易转化为饱和酯。然而,α,β-烯醛底物的α-或β-位上的取代基通常不能被容忍,因此严重限制了底物的范围。基于我们早期的机理研究,合成了一系列 N-Mes-或 N-Dipp-取代的 1,2,4-三唑𬭩盐,并将其作为(预)催化剂用于各种α-或β-取代的烯醛的氧化还原酯化反应中。特别是 1,4-双-Mes/Dipp-1,2,4-三唑啉鎓克服了上述限制,能够有效地催化一系列迄今为止不能用 NHC 催化转化的α/β-取代的烯醛的氧化还原酯化反应。1,4-双-Mes/Dipp-1,2,4-三唑啉鎓的合成价值还通过 10-氧代柠檬醛一步双环化反应以非对映异构体纯的形式得到(外消旋)新橙皮内酯得到进一步证明。
