69689-45-8Relevant academic research and scientific papers
Direct N-acylation of lactams, oxazolidinones, and imidazolidinones with aldehydes by Shvo's catalyst
Zhang, Jian,Hong, Soon Hyeok
supporting information, p. 4646 - 4649 (2012/10/29)
Direct N-acylation of lactams, oxazolidinones, and imidazolidinones was achieved with aldehydes by Shvo's catalyst without using any other stoichiometric reagent. The N-acylations with α,β-unsaturated aldehydes were achieved with excellent yields.
The aminolysis of N-aroyl β-lactams occurs by a concerted mechanism
Tsang, Wing Y.,Ahmed, Naveed,Page, Michael I.
, p. 485 - 493 (2008/03/27)
N-Aroyl β-lactams are imides with exo- and endocyclic acyl centres which react with amines in aqueous solution to give the ring opened β-lactam aminolysis product. Unlike the strongly base catalysed aminolysis of β-lactam antiobiotics, such as penicillins
Competitive endo- and exo-cyclic C-N fission in the hydrolysis of N-aroyl β-lactams
Tsang, Wing Y.,Ahmed, Naveed,Hemming, Karl,Page, Michael I.
, p. 1432 - 1439 (2007/10/03)
The balance between endo- and exo-cyclic C-N fission in the hydrolysis of N-aroyl β-lactams shows that the difference in reactivity between strained β-lactams and their acyclic analogues is minimal. Attack of hydroxide ion occurs preferentially at the exocyclic acyl centre rather than that of the β-lactam during the hydrolysis of N-p-nitrobenzoyl β-lactam. In general, both endo- and exo-cyclic C-N bond fission occurs in the alkaline hydrolysis of N-aroyl β-lactams, the ratio of which varies with the aryl substituent. Hence, the Bronsted β-values differ for the two processes: -0.55 for the ring-opening reaction and -1.54 for the exocyclic C-N bond fission reaction. For the pH-independent and acid-catalysed hydrolysis of N-benzoyl β-lactam, less than 3% of products are derived from exocyclic C-N bond fission.
Electrochemical fluorination of 4-trimethylsilylazetidin-2-ones: an efficient and regioselective preparation of 4-fluoroazetidin-2-ones
Suda, Kohji,Hotoda, Katsumi,Aoyagi, Mitsuaki,Takanami, Toshikatsu
, p. 1327 - 1330 (2007/10/02)
Anodic oxidation of 4-trimethylsilylazetidin-2-ones in the presence of Et3N*3HF gave 4-fluoroazetidin-2-ones in high yields under very mild conditions.
