72485-49-5Relevant academic research and scientific papers
Asymmetric Synthesis of Dihydropyranones via Gold(I)-Catalyzed Intermolecular [4+2] Annulation of Propiolates and Alkenes
Choi, Su Yeon,Kim, Hanbyul,Shin, Seunghoon
, p. 13130 - 13134 (2018/09/21)
Intermolecular asymmetric gold catalysis involving alkyne activation presents a significant challenge due to its distinct mechanistic mode from other metals. Herein, we report a highly enantioselective synthesis of α,β-unsaturated δ-lactones from [4+2] annulation of propiolates and alkenes in upto 95 percent ee. Notably, for the desired chiral recognition, the choice of 1,1,2,2-tetrachloroethane as solvent was found to be crucial. Furthermore, an anionic surfactant (sodium dodecyl sulfate) improved the product selectivity in the divergence of the cyclopropyl gold carbene intermediate.
Hydrodehalogenation of Haloarenes by a Sodium Hydride–Iodide Composite
Ong, Derek Yiren,Tejo, Ciputra,Xu, Kai,Hirao, Hajime,Chiba, Shunsuke
, p. 1840 - 1844 (2017/02/05)
A simple protocol for hydrodebromination and -deiodination of halo(hetero)arenes was enabled by sodium hydride (NaH) in the presence of lithium iodide (LiI). Mechanistic studies showed that an unusual concerted nucleophilic aromatic substitution operates in the present process.
Hydrazines and azides via the metal-catalyzed hydrohydrazination and hydroazidation of olefins
Waser, Jerome,Gaspar, Boris,Nambu, Hisanori,Carreira, Erick M.
, p. 11693 - 11712 (2007/10/03)
The discovery, study, and implementation of the Co- and Mn-catalyzed hydrohydrazination and hydroazidation reactions of olefins are reported. These reactions are equivalent to direct hydroaminations of C-C double bonds with protected hydrazines or hydrazoic acid but are based on a different concept in which the H and the N atoms come from two different reagents, a silane and an oxidizing nitrogen source (azodicarboxylate or sulfonyl azide). The hydrohydrazination reaction using di-tert-butyl azodicarboxylate is characterized by its ease of use, large functional group tolerance, and broad scope, including mono-, di-, tri-, and tetrasubstituted olefins. Key to the development of the hydroazidation reaction was the use of sulfonyl azides as nitrogen sources and the activating effect of tert-butyl hydroperoxide. The reaction was found to be efficient for the functionalization of mono-, di-, and trisubstituted olefins, and only a few functional groups are not tolerated. The alkyl azides obtained are versatile intermediates and can be transformed to the free amines or triazoles without isolation of the azides. Preliminary mechanistic investigations suggest a rate-limiting hydrocobaltation of the alkene, followed by an amination reaction. Radical intermediates cannot be ruled out and may be involved.
Cobalt-catalyzed hydroazidation of olefins: Convenient access to alkyl azides
Waser, Jerome,Nambu, Hisanori,Carreira, Erick M.
, p. 8294 - 8295 (2007/10/03)
Conversion of olefins to azides was achieved with high Markovnikov selectivity for a broad range of alkenes using 6 mol % Co(BF4)·6H2O and ligand 1, with 3 equiv of TsN3 as nitrogen source and simple silanes (PhSiH3, TMDSO). Copyright
Applications of the Stereochemically-Controlled Horner-Wittig Reaction: Synthesis of Feniculin, (E)-Non-6-en-1-ol, a Pheromone of the Mediterranean Fruit Fly, (E)- and (Z)-Dec-5-en-1-ol, Tri-substituted Alkenes, and (Z)-α-Bisabolene
Buss, Antony D.,Greeves, Nicholas,Mason, Ralph,Warren, Stuart
, p. 2569 - 2578 (2007/10/02)
Stereoselective reduction of the appropriate α-diphenylphosphinoyl ketone or addition of the lithium derivative of an alkyl diphenylphospine oxide to an aldehyde or a ketone gives Horner-Wittig intermediates and hence the title compounds.
THE WITTIG-HORNER ROUTE TO TRI-SUBSTITUTED ALKENES: SYNTHESIS OF Z-α-BISABOLENE
Buss, Antony D.,Warren, Stuart
, p. 111 - 114 (2007/10/02)
E and Z isomers of trisubstituted alkenes may separately be prepared by the Wittig-Horner reaction.Z-α-bisabolene has been made by this route.
