123983-05-1Relevant articles and documents
Design and synthesis of chiral oxathiozinone scaffolds: Efficient synthesis of hindered enantiopure sulfinamides and sulfinyl ketimines
Han, Zhengxu S.,Herbage, Melissa A.,Mangunuru, Hari P. R.,Xu, Yibo,Zhang, Li,Reeves, Jonathan T.,Sieber, Joshua D.,Li, Zhibin,Decroos, Philomen,Zhang, Yongda,Li, Guisheng,Li, Ning,Ma, Shengli,Grinberg, Nelu,Wang, Xiaojun,Goyal, Navneet,Krishnamurthy, Dhileep,Lu, Bruce,Song, Jinhua J.,Wang, Guijun,Senanayake, Chris H.
supporting information, p. 6713 - 6717 (2013/07/26)
Is that S-O? The title scaffolds have a highly active and properly differentiated S-O bond for the efficient synthesis of enantiopure sulfinamides. The method is practical, green, and has the potential to provide an economical commercial process for the synthesis of bulky sulfinamides. Copyright
Asymmetric Syntheses of 2-(1-Aminoethyl)phenols
Kuendig, E. Peter,Botuha, Candice,Lemercier, Gilles,Romanens, Patrick,Saudan, Lionel,Thibault, Sylvie
, p. 561 - 579 (2007/10/03)
Three different routes were probed for the synthesis of enantiomerically enriched 2-(1-aminoethyl)phenols and their methyl ethers. The first route centers on diastereoselective nucleophile addition to chiral imines. The second route has as key steps the enantioselective reduction of a ketone followed by nucleophilic substitution, and the third route involves a diastereoselective imine reduction. The efficiency of the approach depends on the substrate substitution pattern. All three methods work well for the parent compound 2-(1-aminoethyl)phenol (1) but the third route is the most efficient, providing the compound with >96% enantiomer excess in three steps with an overall yield of 71%. Conversely, for the ortho-methyl analogue 2, the first method is best. For the t-Bu-substituted analogue 3, only moderate enantiomeric enrichment was achieved.