1290145-50-4Relevant academic research and scientific papers
Configuration Sampling With Five-Membered Atropisomeric P,N-Ligands
Aponick, Aaron,Dahiya, Gaurav,Pappoppula, Mukesh
, p. 19604 - 19608 (2021)
Here we report a strategy for the systematic variation of atropisomeric C1-symmetric P,N ligands to incrementally change the position of the groups within the chiral pocket without modifying their steric parameters. More specifically, the effec
Catalyst-free chemoselective conjugate addition and reduction of α,β-unsaturated carbonyl compounds: Via a controllable boration/protodeboronation cascade pathway
Huang, Xi,Hu, Junjie,Wu, Mengying,Wang, Jiayi,Peng, Yanqing,Song, Gonghua
supporting information, p. 255 - 260 (2018/01/12)
A novel, efficient transition-metal-free and controllable boration/protodeboronation strategy has been developed for the chemoselective conjugate addition and 1,4-reduction of α,β-unsaturated carbonyl compounds. Without any metal-catalyst or base, a series of β-boration products of α,β-unsaturated carbonyl compounds was easily obtained in moderate to excellent yields in a mixed solvent of ethanol and water. The presence of a catalytic amount of Cs2CO3 can effectively induce further protodeboronation reaction towards 1,4-reduction products at higher reaction temperature. Therefore, by slightly changing the reaction conditions, the boration or reduction products of α,β-unsaturated carbonyl compounds can be controllably obtained. Mechanistic studies revealed that Cs2CO3 played the key role in activating the protodeboronation step. This transition-metal-catalyst-free and product controllable method provides a useful and eco-friendly tool for the highly chemoselective preparation of the β-boration products and 1,4-reduction products of α,β-unsaturated carbonyl compounds.
A method for the deprotection of alkylpinacolyl boronate esters
Sun, Jing,Perfetti, Michael T.,Santos, Webster L.
scheme or table, p. 3571 - 3575 (2011/06/24)
A two-step procedure for deprotection of alkylpinacolyl boronate esters via transesterification with diethanolamine followed by hydrolysis was successfully developed with the advantages of tolerance to various functional groups, short reaction time, and ease of product isolation.
