911372-63-9Relevant academic research and scientific papers
Conversion of racemic alcohols to optically pure amine precursors enabled by catalyst dynamic kinetic resolution: Experiment and computation
Azofra, Luis Miguel,Tran, Mai Anh,Zubar, Viktoriia,Cavallo, Luigi,Rueping, Magnus,El-Sepelgy, Osama
supporting information, p. 9094 - 9097 (2020/10/02)
An unprecedented base metal catalysed asymmetric synthesis of α-chiral amine precursors from racemic alcohols is reported. This redox-neutral reaction utilises a bench-stable manganese complex and Ellman's sulfinamide as a versatile ammonia surrogate. DFT
Method for synthesizing chiral amine
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Paragraph 0046; 0047; 0048; 0049, (2019/01/16)
The invention discloses a method for synthesizing chiral amine. According to the method, a catalytic amount of ketone is used as a self-catalyst, alkali which is cheap and easy to get is used as a synergistic catalyst, a 1-aryl-alcoho compound is used as
Iridium-catalyzed diastereoselective amination of alcohols with chiral: Tert-butanesulfinamide by the use of a borrowing hydrogen methodology
Xi, Xiaomei,Li, Yongjie,Wang, Guannan,Xu, Guangda,Shang, Lina,Zhang, Yao,Xia, Lixin
supporting information, p. 7651 - 7654 (2019/08/30)
An iridium-catalyzed diastereoselective amination of alcohols with chiral tert-butanesulfinamide was developed under basic conditions, affording the optically active secondary sulfinamides in high yields and diastereoselectivities. The removal of the sulfinyl group from sulfonamides allowed a facile access to a wide range of α-chiral primary amines. This synthetic strategy was further applied in the synthesis of the marketed pharmaceuticals (S)-rivastigmine and NPS R-568.
Transition-Metal-Free Hydrogen Autotransfer: Diastereoselective N-Alkylation of Amines with Racemic Alcohols
Xiao, Miao,Yue, Xin,Xu, Ruirui,Tang, Weijun,Xue, Dong,Li, Chaoqun,Lei, Ming,Xiao, Jianliang,Wang, Chao
supporting information, p. 10528 - 10536 (2019/07/17)
A practical method for the synthesis of α-chiral amines by alkylation of amines with alcohols in the absence of any transition-metal catalysts has been developed. Under the co-catalysis of a ketone and NaOH, racemic secondary alcohols reacted with Ellman's chiral tert-butanesulfinamide by a hydrogen autotransfer process to afford chiral amines with high diastereoselectivities (up to >99:1). Broad substrate scope and up to a 10 gram scale production of chiral amines were demonstrated. The method was applied to the synthesis of chiral deuterium-labelled amines with high deuterium incorporation and optical purity, including examples of chiral deuterated drugs. The configuration of amine products is found to be determined solely by the configuration of the chiral tert-butanesulfinamide regardless of that of alcohols, and this is corroborated by DFT calculations. Further mechanistic studies showed that the reaction is initiated by the ketone catalyst and involves a transition state similar to that proposed for the Meerwein–Ponndorf–Verley (MPV) reduction, and importantly, it is the interaction of the sodium cation of the base with both the nitrogen and oxygen atoms of the sulfinamide moiety that makes feasible, and determines the diastereoselectivity of, the reaction.
From racemic alcohols to enantiopure amines: Ru-catalyzed diastereoselective amination
Oldenhuis, Nathan J.,Dong, Vy M.,Guan, Zhibin
supporting information, p. 12548 - 12551 (2014/12/10)
A commercially available ruthenium(II) PNP-type pincer catalyst (Ru-Macho) promotes the formation of α-chiral tert-butanesulfinylamines from racemic secondary alcohols and Ellmans chiral tert-butanesulfinamide via a hydrogen borrowing strategy. The formation of α-chiral tert-butanesulfinylamines occurs in yields ranging from 31% to 89% with most examples giving >95:5 dr.
Asymmetric synthesis of chiral primary amines by transfer hydrogenation of N -(tert -Butanesulfinyl)ketimines
Guijarro, David,Pablo, Oscar,Yus, Miguel
supporting information; experimental part, p. 5265 - 5270 (2010/10/21)
(Figure presented) The diastereoselective reduction of (R)-N-(tert- butanesulfinyl)ketimines by a ruthenium-catalyzed asymmetric transfer hydrogenation process in isopropyl alcohol, followed by desulfinylation of the nitrogen atom, is an excellent method to prepare highly enantiomerically enriched α-branched primary amines (up to >99% ee) in short reaction times (1-4 h). (1S,2R)-1-Amino-2-indanol has been shown to be a very efficient ligand to perform this transformation. Ketimines bearing either an aryl or a heteroaryl group and an alkyl group as substituents of the iminic carbon atom are very good substrates for this process. The reduction of a dialkyl ketimine could also be achieved, affording the expected amine with moderate optical purity (69% ee). Some amines which are precursors of very interesting biologically and pharmacologically active compounds have been prepared in excellent yields and enantiomeric excesses.
Reversal of diastereofacial selectivity in hydride reductions of N-tert-butanesulfinyl imines
Colyer, John T.,Andersen, Neil G.,Tedrow, Jason S.,Soukup, Troy S.,Faul, Margaret M.
, p. 6859 - 6862 (2007/10/03)
A variety of N-tert-butanesulfinyl imines were reduced with NaBH 4 in THF containing 2% water to provide the corresponding secondary sulfinamides in high yield and diastereoselectivity. By using the same sulfinyl imine starting materials and changing the reductant to L-Selectride, the stereoselectivity could be efficiently reversed to afford the opposite product diastereomer in high yield and selectivity.
