40556-27-2Relevant academic research and scientific papers
Insights into the formation of symmetrical trimers of dialkylated ketenes starting from acid chloride precursors
Saaidi, Pierre-Loic,Doridot, Gabriel,Jeanneau, Erwann,Hasserodt, Jens
, p. 1011 - 1018 (2008/03/17)
Application of known dialkyl ketene di- and trimerization to more complex precursors could readily open the route to highly functionalized symmetrical cyclobuta-1,3-diones and cyclohexa-1,3,5-triones. We report herein the results on three substrates containing either a C=C double bond or a protected glycol moiety as illustrative functionalized groups. The nature of the substituents is found to be crucial: while cyclopentenyl and more constrained dioxolanocyclopentenyl precursors efficiently dimerize, a diallylic derivative fails. At the millimolar scale, methoxide-catalyzed trimerization shows limited reproducibility, even for the reported substrate tetramethylcyclobuta-1,3-dione. However, systematic studies, including the use of microwaves, demonstrate that formation of symmetrical trimers is favored under solvent-free conditions and conventional heating, which allowed us to isolate and characterize trispiro[4.1.4.1.4.1]octadeca-2,9,15-triene-6,12,18-trione.
Syntheses of 4-[(1H,3H)-pyrimidine-2,4-dion-1-yl]- and 4-[(1H,3H)-5- methylpyrimidine-2,4-dion-1-yl]-1,6-heptadienes
Bouhadir, Kamal H.,Zhou, Jing-Lan,Shevlin, Philip B.
, p. 1003 - 1010 (2007/10/03)
Heptadienes containing nucleic bases are attractive building blocks for the synthesis of carbocyclic oligonucleotide analogs. Herein, we report an alternative synthetic route to 4-[(1H,3H)-pyrimidine-2,4-dion-1-yl]-1,6- heptadiene and 4-[(1H,3H)-5-methylpyrimidine-2,4-dion-1-yl]-1,6-heptadiene via building the pyrimidine ring utilizing 4-isocyanato-1,6-heptadiene intermediate.
Intramolecular Reactions of N-Nitrenes with Alkenes
Atkinson, Robert S.,Malpass, John R.,Skinner, Karen L.,Woodthorpe, Katherine L.
, p. 1905 - 1912 (2007/10/02)
Oxidation of 2-but-1-enyl- and 2-(1-phenylbut-1-enyl)-3-aminoquinazolin-4(3H)-ones (8) and (10), respectively, generates the corresponding N-nitrenes which are trapped intramolecularly by the double bonds.The results from competitive intramolecular trapping of the N-nitrene by different double bonds in 3-aminoquinazolones bearing bifurcated chains in position 2 indicate that these intramolecular nitrene additions are non-concerted and, as in the corresponding intramolecular addition to aromatic rings, proceed via 7-membered transition states with the nitrene functioning as an electrophile.
