43227-89-0Relevant academic research and scientific papers
Construction of 1,2,5-tricarbonyl compounds using methyl cyanoacetate as a glyoxylate anion synthon combined with copper(I) iodide-catalyzed aerobic oxidation
Kim, Se Hee,Kim, Ko Hoon,Kim, Jae Nyoung
supporting information; experimental part, p. 3335 - 3339 (2012/01/19)
A practical and efficient synthesis of various 1,2,5-tricarbonyl compounds is described. The synthesis has been carried out by a conjugate addition of methyl cyanoacetate to the β-position of α,β-unsaturated carbonyl compounds and a subsequent copper(I) iodide-catalyzed aerobic oxidation. In addition, various α-aryl- and α-alkyl-α-keto esters have been synthesized using a similar approach. Copyright
Dibromomethane as one-carbon source in organic synthesis: A versatile methodology to prepare the cyclic and acyclic α-methylene or α-keto acid derivatives from the corresponding terminal alkenes
Hon, Yung-Son,Liu, Yu-Wei,Hsieh, Cheng-Han
, p. 4837 - 4860 (2007/10/03)
Ozonolysis of mono-substituted alkenes A-1 followed by reacting with a preheated mixture of CH2Br2-Et2NH affords α-substituted acroleins A-2 in good yields. Under very mild reaction conditions, these α-substituted acroleins A-2 can be easily converted to α-methylene esters A-4, which could be further converted to the corresponding α-keto esters A-5. This methodology can be also applied to the preparation of α-methylene lactones B-4, α-methylene lactams, and α-keto lactones B-5 with various ring sizes.
UNE APPROCHE DE SYNTHESE DE L'ENTEROCINE ADDITION DE CARBANIONS α-SOUFRES SUR LE QUINIDE.
Flores-Parra, Angelina,Khuong-Huu, Francoise
, p. 5925 - 5930 (2007/10/02)
Chemical transformation of the γ-lactonic function of quinide in a keto-2 δ-lactone, by addition of α-thiocarbanions, has been studied, as an approach of synthesis of enterocine 1.The addition of acetophenone anion on the keto group of a α-keto ester has
