78763-74-3Relevant academic research and scientific papers
The application of intramolecular radical cyclizations of acylsilanes in the regiospecific formation of cyclic silyl enol ethers
Huang,Chang,Wang,Tsai
, p. 8983 - 8991 (2007/10/03)
Acylsilanes with terminal α-stannyl bromide or xanthate functionalities are prepared, α-Stannyl radicals generated from these acylsilanes undergo intramolecular cyclizations to give cyclic silyl enol ethers regiospecifically. The radical processes involve radical cyclization, Brook rearrangement, and β-fragmentation in sequence. A tributylstannyl group serves as the radical leaving group. The newly formed σ-bond and π-bond are located between the same two carbon atoms. This approach is limited to the formation of five-membered rings. In another route, ω-bromo-α-phenylsulfonylacylsilanes are synthesized. The radical cyclizations of these α-sulfonylacylsilanes also give cyclic silyl enol ethers. The phenylsulfonyl moiety is the radical leaving group in this system. Furthermore, the newly formed σ-bond and π-bond are located at adjacent positions sharing a single carbon atom. The latter approach is effective for both five- and six-membered ring formation.
CYCLOPENTENONES FROM 1,2-DISILOXYCYCLOBUTENE VIA SILYLATED 1-VINYLCYCLOPROPANOLS. APPLICATION TO THE SYNTHESIS OF DIHYDROJASMONE AND CIS-JASMONE
Salauen, J.,Almirantis, Y.
, p. 2421 - 2428 (2007/10/02)
An effective synthesis of 2,3-disubstituted 2-cyclopentenones involves C4 - C3 ring contraction of the readily available 1,2-disiloxycyclobutene followed by thermal C3 - C5 ring enlargement of trimethylsiloxyvinyl-cyclopropanes.To illustrate the convenience of this new approach the total syntheses of 2-methyl-3-p-tolyl-2-cyclopentenone, dihydrojasmone, and cis-jasmone are reported.
Synthetic Applications of 2-Phenylselenenyl Enones. Selective Formation of Exocyclic or Endocyclic Enones from a Common Intermediate
Zima, George,Barnum, Christopher,Liotta, Dennis
, p. 2736 - 2737 (2007/10/02)
2-Phenylselenenyl enones are versatile species which can be selectively converted into a number of different ketones and enones (e.g.5, 6, 9, 10, or 11) in high overall yields.
