98463-74-2Relevant academic research and scientific papers
Azetidines and Bisazetidines. Their Synthesis and Use as the Key Intermediates to Enantiomerically Pure Diamines, Amino Alcohols, and Polyamines
Ojima, Iwao,Zhao, Mangzhu,Yamato, Takehiko,Nakahashi, Kazuaki,Yamashita, Mitsuo,Abe, Rumiko
, p. 5263 - 5277 (2007/10/02)
Highly selective reductions of β-lactams (1, 5), direct-tandem bis-β-lactams (6), and tandem bis-β-lactams (7) to the corresponding azetidines (13, 14) and bisazetidines (11, 12) are successfully performed by using diisobutylaluminum hydride (DIBAL-H), monochlorohydroalane (AlH2Cl) and dichloroalane (AlHCl2) as specific reducing agents: Enantiomerically pure azetidines and bisazetidines are readily synthesized without loss of enantiomeric purity.Possible mechanisms that can accomodate the unique selectivity realized by hydroalanes are discussed.Hydrogenolysis of 2-arylazetidines and 2,2'-diarylbisazetidines on palladium catalyst or Ra ney-Ni gives the corresponding diamines, amino alcohols, polyamino alcohols, and polyamino ethers in excellent yields, which may serve as useful chiral chelating agents as well as chiral building blocks for organic synthesis and for chiral macrocycles.
SYNTHESIS OF NOVEL CHIRAL BISAZETIDINES BY THE HYDROALANE REDUCTION OF BIS-BETA-LACTAMS
Ojima, Iwao,Yamato, Takehiko,Nakahashi, Kazuaki
, p. 2035 - 2038 (2007/10/02)
A series of novel chiral bisazetidines in which two azetidine rings are either directly connected or coupled in tandem style, are synthesized in good yields by the hydroalane reduction of the corresponding bis-beta-lactams.
