24826-68-4Relevant articles and documents
Catalytic Multisite-Selective Acetoxylation Reactions at sp2 vs sp3 C-H Bonds in Cyclic Olefins
Zang, Zhong-Lin,Zhao, Sheng,Karnakanti, Shuklachary,Liu, Cheng-Lin,Shao, Pan-Lin,He, Yun
supporting information, p. 5014 - 5017 (2016/10/14)
The first Pd-catalyzed multisite-selective acetoxylation reactions are disclosed at an unactivated alkene sp2 C-H bond versus secondary allylic sp3 C-H bond in cyclic olefins via the modulation of directing groups. The different directing groups overcome the key challenge in differentiating C-H bonds and provide a new controlling approach for site-specific C-H activation. A wide variety of substrates are readily acetoxylated under operationally simple conditions. Mechanistic studies suggest that different Pd (IV) intermediates were involved in the multisite-selective acetoxylation reactions.
AlEt3-promoted eliminative ring-opening of β-hydroxy epoxides: Highly stereoselective synthesis of terminal α-hydroxy olefins
Wang, Fei,Wang, Shao Hua,Tu, Yong Qiang,Ren, Shi Kuo
, p. 2189 - 2193 (2007/10/03)
AlEt3-promoted eliminative ring-opening of β-epoxy alcohols leading to α-hydroxy olefins is reported. This eliminative ring-opening reaction is shown to be highly stereoselective, thus providing an alternative asymmetric synthesis for α-hydroxy olefins.
One-Pot Synthesis of Substituted Homoallylic Alcohols (3-Alkenols) and 1-Deuterio-3-alkenols; II. Extension to Ketone Enolates
Barluenga, Jose,Alvarez, Flora,Concellon, Jose M.,Bernad, Pablo,Yus, Miguel
, p. 318 - 320 (2007/10/02)
The reaction of different lithium ketone enolates with α-chloro carbonyl compounds followed by in situ reduction with lithium aluminium hydride or deuteride and final lithiation with lithium powder leads to the corresponding homoallylic or 1-deuterio homoallylic alcohols in a regioselective manner.