125997-12-8Relevant articles and documents
Nickel-catalyzed remote hydrosilylation of unconjugated enones with bulky triphenylsilane
Chen, Xue,Jin, Hongwei,Liu, Yunkui,Wang, Zhen,Zhou, Bingwei,Zhou, Jinyong
supporting information, p. 8021 - 8024 (2021/10/04)
Herein we describe a nickel-catalyzed remote hydrosilylation of unconjugated enones with bulky triphenylsilane. A range ofZ-silyl enol ethers are obtained as major isomers due to the process of nickel triggered alkene isomerization. Notably, some specific
Copper-Catalyzed Cope-Type Hydroamination of Nonactivated Olefins toward Cyclic Nitrones: Scope, Mechanism, and Enantioselective Process Development
Zhang, Mengru,Liu, Shuang,Li, Hexin,Guo, Yajing,Li, Na,Guan, Meihui,Mehfooz, Haroon,Zhao, Jinbo,Zhang, Qian
supporting information, p. 12620 - 12627 (2019/09/16)
The catalytic synthesis of cyclic nitrones, an important type of functional molecules for both synthetic chemistry and related fields, remains underdeveloped. Herein we report the copper-catalyzed Cope-type hydroamination of oximes with pendant nonactivated olefins, which enables facile access to a series of five- and six-membered cyclic nitrones under mild conditions. In this study, heterocycle-tethered oximes were employed in the Cope-type hydroamination reaction for the first time. High enantioselectivity was achieved for carbon-tethered γ,δ-vinyl oximes to afford enantioenriched five-membered cyclic nitrones. The results of preliminary mechanistic studies indicate a mononuclear catalytic species and a unified catalytic pathway over a large temperature range.
Striking AcOH acceleration in direct intramolecular allylie amination reactions
Nahra, Fady,Liron, Frederic,Prestat, Guillaume,Mealli, Carlo,Messaoudi, Abdelatif,Poli, Giovanni
supporting information; experimental part, p. 11078 - 11082 (2010/04/28)
An experiment was conducted to demonstrate that a strong accelerating effect occurs in direct intramolecular allylic amination when the reaction is conducted in AcOH rather than in CHCl or THF. A round bottom flask under air was charged with N-tosylcarbamate 3a-j, Pd(OAc)2, bis-sulfoxide ligand LL, phenylbenzoquinone and AcOH. The reaction was allowed to stir at 45°C for 24 h. The reaction mixture was hydrolysed and extracted with AcOEt. The combined organic layers were dried over MgSO4, filtered, and concentrated in vacuo. Cyclisation of 3a was repeated in CH2Cl 2 and in AcOH by using stoichiometric amounts of Pd(OAc) without benzoquinone. Stoichiometric tests and computational DFT analysis of the palladium reoxidation step provide an overview of the structural and energetic role of acetic acid in increasing the efficacy of the entire catalytic cycle.