19447-29-1Relevant academic research and scientific papers
Preparation of a Terminal Allene, 3-Haloallene, and 3-Acylallene from a Propargyltrimethylsilane
Flood, Timothy,Peterson, Paul E.
, p. 5006 - 5007 (1980)
Preparations of a terminal allene, 3-haloallene, and 3-acylallene from the reaction of a propargyltrimethylsilane with trifluoroacetic acid, bromine or iodine, and acetyl chloride-aluminum chloride, respectively, are reported.
Carbocycle Formation via Intramolecular Insertion of Alkynes into Titanium-Carbon Bonds
Harms, Arthur E.,Stille, John R.
, p. 6565 - 6568 (2007/10/02)
Treatment of alkyl titanocene chloride complexes with the Lewis acids EtAlCl2 or Me2AlCl resulted in intramolecular insertion of a tethered alkyne into the Ti-C bond.Regioselective alkyne insertion produced exocyclic trisubstituted alkene products resulting from four-, five-, and six-membered ring formation.In the case of cyclohexane formation, the alkyne was found to insert with syn stereoselectivity.
Methylation via the Suzuki reaction
Soderquist,Santiago
, p. 5541 - 5542 (2007/10/02)
The clean, efficient Pd-catalyzed cross-coupling of vinyl, alkynyl and aryl bromides with the air-stable organoborane, 10-methyl-9-oxa-10-borabicyclo[3.3.2]decane gives excellent yields of the corresponding methylated products.
Vinylic Organoboranes. 4. A General, One-Pot Synthesis of 6- and 7-Alkyn-1-ols via Boracyclanes. Influence of Steric Effects in the Iodination of Lithium Alkynyl "Ate" Complexes of Dialkylborinates
Brown, Herbert C.,Basavaiah, D.,Bhat, N. G.
, p. 4518 - 4521 (2007/10/02)
The iodination of the "ate" complexes derived from various B-alkoxyborinane derivatives and 1-alkynyllithium has been investigated.The results indicate the ate complex from B-methoxyborinane is converted into desired 6-alkyn-1-ol in a yield of only 22percent, with much larger amounts, 65percent, of the undesired 1-iodo-1-alkyne.Increases in the steric bulk of the alkoxy group on boron increase the yield of the required 6-alkyn-1-ol with the best results realized with B-(triphenylmethoxy)borinane.Treatment of B-(triphenylmethoxy)borinane with 1-alkynyllithium affords the corresponding "ate" complex.Subsequent iodination induces the migration of one end of the cycloalkyl chain from boron to the adjacent carbon, resulting in the formation of the one-carbon homologated borepane moiety.This then undergoes a rapid deiodoboronation to afford the corresponding (6-alkyn-1-yl)boronate ester.Oxidation of these esters produces the desired 6-alkyn-1-ols in excellent yields (85percent).An attempt to extend this reaction to di-n-alkylborinates to prepare the corresponding unsymmetrical alkynes did not achieve satisfactory results.Alternatively, the iodination of the "ate" complex from B-methylborinane and 1-alkynyllithium, followed by oxidation, provides the required 6-alkyn-1-ols in high yields.This procedure has been successfully extended to the seven-membered borepane moiety to provide the corresponding 7-alkyn-1-ols.Extension of this reaction to the di-n-alkylmethylboranes provides the corresponding unsymmetrical alkynes in good yields.Thus, these procedures constitute a simple, general and one-pot synthesis of the desired alkyn-1-ols, valuable synthons in organic synthesis.Insect pheromones, (Z)-7-tetradecenaland (Z)-7-hexadecenal, were readily prepared in excellent yields by utilizing this convenient procedure.
