155397-26-5Relevant academic research and scientific papers
Enantioselective Construction of α-Chiral Silanes by Nickel-Catalyzed C(sp3)?C(sp3) Cross-Coupling
Yi, Hong,Mao, Wenbin,Oestreich, Martin
supporting information, p. 3575 - 3578 (2019/02/16)
An enantioselective C(sp3)?C(sp3) cross-coupling of racemic α-silylated alkyl iodides and alkylzinc reagents is reported. The reaction is catalyzed by NiCl2/(S,S)-Bn-Pybox and yields α-chiral silanes with high enantiocontr
Carboxylation with CO2 via brook rearrangement: Preparation of α-hydroxy acid derivatives
Mita, Tsuyoshi,Higuchi, Yuki,Sato, Yoshihiro
supporting information, p. 14 - 17 (2014/01/23)
In the presence of CsF, a wide range of α-substituted α-siloxy silanes were carboxylated under a CO2 atmosphere (1 atm) via Brook rearrangement. A variety of α-substituents including aryl, alkenyl, and alkyl groups were tolerated to afford α-hydroxy acids in moderate-to-high yields. One-pot synthesis from aldehydes using PhMe2SiLi and CO 2 was also possible, providing α-hydroxy acids without the isolation of an α-hydroxy silane.
Synthesis of Acylsilanes from Amides and Esters, and the Selective Oxidation of α-Silyl Alcohols to Aldehydes
Fleming, Ian,Ghosh, Usha
, p. 257 - 262 (2007/10/02)
The acylsilanes 2 can easily be made directly from the dimethylamides 3 by treatment with phenyldimethylsilyllithium.They can also be made in two steps from the esters 4 using 2 equiv. of phenyldimethylsilyllithium followed by oxidation of the disilyl alcohols 5 with PDC.The disilyl alcohols 5 can be used as intermediates in the conversion of esters into aldehydes without recourse to hydride reagents, by monodesilylation, using a Brook rearrangement, followed by oxidation and selective removal of the silyl group, using chromium trioxide in DMSO.
