转鼓
质子化
催化作用
对映选择合成
化学
动力学分辨率
选择性
产量(工程)
酰化
溶剂
反应性(心理学)
氢键
有机催化
组合化学
有机化学
分子
材料科学
病理
离子
医学
亲核细胞
冶金
替代医学
作者
Michael H. Wang,David N. Barsoum,C. Benjamin Schwamb,Daniel T. Cohen,Brian C. Goess,Matthias Riedrich,Audrey Chan,Brooks E. Maki,Rama K. Mishra,Karl A. Scheidt
标识
DOI:10.1021/acs.joc.7b00334
摘要
The NHC-catalyzed transformation of unsaturated aldehydes into saturated esters through an organocatalytic homoenolate process has been thoroughly studied. Leveraging a unique "Umpolung"-mediated β-protonation, this process has evolved from a test bed for homoenolate reactivity to a broader platform for asymmetric catalysis. Inspired by our success in using the β-protonation process to generate enals from ynals with good E/Z selectivity, our early studies found that an asymmetric variation of this reaction was not only feasible, but also adaptable to a kinetic resolution of secondary alcohols through NHC-catalyzed acylation. In-depth analysis of this process determined that careful catalyst and solvent pairing is critical for optimal yield and selectivity; proper choice of nonpolar solvent provided improved yield through suppression of an oxidative side reaction, while employment of a cooperative catalytic approach through inclusion of a hydrogen bond donor cocatalyst significantly improved enantioselectivity.
科研通智能强力驱动
Strongly Powered by AbleSci AI