Enynes Research Articles

Gold-Catalyzed Access to Skipped Dienes and Enynes

Gold-Catalyzed Access to Skipped Dienes and Enynes

Visible-Light-Induced Cyclization of 1, n -Enyne and Polyfluoroalkyl Halides Toward Halo-perfluorinated 2,4-Dihydroisoquinoline-2(1 H )-one

Visible-Light-Induced Cyclization of 1, n -Enyne and Polyfluoroalkyl Halides Toward Halo-perfluorinated 2,4-Dihydroisoquinoline-2(1 H )-one

Front Cover: Gold(I)‐Catalysed Hydroarylation of Lactam‐Derived Enynes as an Entry to Tetrahydrobenzo[g]quinolines (Eur. J. Org. Chem. 6/2020)

Front Cover: Gold(I)‐Catalysed Hydroarylation of Lactam‐Derived Enynes as an Entry to Tetrahydrobenzo[<i>g</i>]quinolines (Eur. J. Org. Chem. 6/2020)

Copper-catalyzed 1,1-alkynylalkylation of alkynes: access toward conjugated enynes

A copper-catalyzed 1,1-alkynylalkylation of alkynes with α-haloacetamides for the construction of conjugated enynes has been developed.

Ortho-Amide-directed 2,4-dibromohydration of conjugated enynes

A NBS-mediated and ortho-amide-directed 2,4-dibromohydration of enynes is described in this paper.

ChemInform Abstract: Harnessing the Versatile Reactivity of Propargyl Alcohols and Their Derivatives for Sustainable Complex Molecule Synthesis

AbstractReview: [72 refs.

Harnessing the Versatile Reactivity of Propargyl Alcohols and their Derivatives for Sustainable Complex Molecule Synthesis

One of the major challenges faced in modern synthetic chemistry is the efficient and selective assembly of complex molecular structures, especially carbo- and heterocycles, from readily accessible starting materials. With this has arisen the development of tandem reaction processes, which permit multiple transformations in a single synthetic step and that have often provided elegant routes to complex target scaffolds from simple precursors. Propargyl alcohols and their derivatives have become increasingly attractive starting materials for such processes owing to their reactivity in the presence of a Brønsted or Lewis acid catalyst as well as halogenation reagents. This account describes our recent efforts in the field, and demonstrates how propargyl alcohols and their derivatives can be transformed into a diverse range of highly functionalized acyclic, carbocyclic and heterocyclic structures, which are of importance as synthetic building blocks and as motifs in functional materials and bioactive compounds. 1 Introduction 2 Acyclic Conjugated Enynes 3 Carbocycles 3.1 Indenes 3.2 Dihydrofluorenes 3.3 Cyclopentenes, Cyclobutenes and Cyclopenta[<i>b</i>]naphthalenes 3.4 <i>ortho</i>-Phenolic Esters 4 Heterocycles with One Heteroatom 4.1 Indoles 4.2 Piperidines, Azepines and Pyrrolidines 4.3 Pyrroles 4.4 Furans 4.5 Benzo[<i>b</i>]oxepines and Benzo[<i>b</i>]azepines 5 Heterocycles with Two Heteroatoms 5.1 Thiazoles and Oxazoles 5.2 Dioxolanes 6 Conclusion

Intermolecular bromoesterification of conjugated enynes: an efficient synthesis of bromoallenes

Highly functionalized bromoallenes were prepared by intermolecular 1,4-bromoesterification of conjugated enynes.

Tandem Brønsted Acid Promoted and Nazarov Carbocyclizations of Enyne Acetals to Hydroazulenones

Metallfrei und effizient können Eninacetale in Hydroazulen-Gerüste umgewandelt werden. Die neue Route, die eine Brønsted-Säure-vermittelte Carbocyclisierung mit anschließender stereospezifischer Nazarov-Cyclisierung umfasst, eignet sich auch zum Aufbau interessanter heteroaromatischer Tricyclen. Detailed facts of importance to specialist readers are published as ”Supporting Information”. Such documents are peer-reviewed, but not copy-edited or typeset. They are made available as submitted by the authors. Please note: The publisher is not responsible for the content or functionality of any supporting information supplied by the authors. Any queries (other than missing content) should be directed to the corresponding author for the article.

ChemInform Abstract: Palladium‐Catalyzed Divergent Reactions of 1,6‐Enyne Carbonates: Synthesis of Vinylidenepyridines and Vinylidenepyrrolidines.

AbstractTreatment of enyne carbonates like (I) and (VI) with PdI2/P(2‐furyl)3 allows a new access to vinylidenepyridines.

ChemInform Abstract: Synthesis and Antidepressant‐Like Activity of Selenophenes Obtained via Iron(III)—PhSeSePh‐Mediated Cyclization of Z‐Selenoenynes.

AbstractA variety of new 2,5‐disubstituted‐3‐seleno‐selenophenes and related tellurophenes is synthesized by FeCl3‐dichalcogenide mediated cyclization of (Z)‐enynes (I).

ChemInform Abstract: Intramolecular 1,4‐Addition of Nitrogen Nucleophile and Bromine Electrophile to Conjugated 1,3‐Enyne.

AbstractIt is discovered, that 1,4‐halocyclization of conjugate enynes (I) and (VII) is intrinsically favored over 1,2‐addition.

ChemInform Abstract: Electrophilic Carbocyclization of Hydroxylated Enynes.

AbstractAn iodonium‐induced internal carbocyclization of hydroxylated enynes is described.

Enantioselective Cyclopropenation of Alkynes

The cobalt(II) complex of new D2-symmetric chiral porphyrin 3,5-DiMes-ChenPhyrin, [Co(P2)], has been shown to be a highly effective chiral metalloradical catalyst for enantioselective cyclopropenation of alkynes with acceptor/acceptor-substituted diazo reagents such as α-cyanodiazoacetamides and α-cyanodiazoacetates. The [Co(P2)]-mediated metalloradical cyclopropenation is suitable to a wide range of terminal aromatic and related conjugated alkynes with varied steric and electronic properties, providing the corresponding tri-substituted cyclopropenes in high yields with excellent enantiocontrol of the all-carbon quaternary stereogenic centers. In addition to mild reaction conditions, the Co(II)-based metalloradical catalysis for cyclopropenation features a high degree of functional group tolerance.

Electrophilic Carbocyclization of Hydroxylated Enynes

Electrophilic Carbocyclization of Hydroxylated Enynes

Enantioselective Cyclopropenation of Alkynes with Acceptor/Acceptor-Substituted Diazo Reagents via Co(II)-Based Metalloradical Catalysis

The cobalt(II) complex of a new D(2)-symmetric chiral porphyrin 3,5-diMes-ChenPhyrin, [Co(P2)], has been shown to be a highly effective chiral metalloradical catalyst for enantioselective cyclopropenation of alkynes with acceptor/acceptor-substituted diazo reagents, such as α-cyanodiazoacetamides and α-cyanodiazoacetates. The [Co(P2)]-mediated metalloradical cyclopropenation is suitable to a wide range of terminal aromatic and related conjugated alkynes with varied steric and electronic properties, providing the corresponding trisubstituted cyclopropenes in high yields with excellent enantiocontrol of the all-carbon quaternary stereogenic centers. In addition to mild reaction conditions, the Co(II)-based metalloradical catalysis for cyclopropenation features a high degree of functional group tolerance.

Gold(I)‐Catalyzed Cycloisomerization of Enynes Containing Cyclopropenes

Zwei Möglichkeiten: Goldkatalysierte Cycloisomerisierungen von Propargylcyclopropenen führen hoch effizient zu Benzolderivaten. In Abhängigkeit von den Substituenten kann es bei der Reaktion zu einem Bruch der Doppel- und der Dreifachbindung kommen (siehe Schema). Detailed facts of importance to specialist readers are published as ”Supporting Information”. Such documents are peer-reviewed, but not copy-edited or typeset. They are made available as submitted by the authors. Please note: The publisher is not responsible for the content or functionality of any supporting information supplied by the authors. Any queries (other than missing content) should be directed to the corresponding author for the article.

A Stable Reagent for Synthesis of Conjugated Enynes from Enals

Several conjugated enynes, which were not accessible if using the Ohira-Bestmann reagent, were synthesized from the corresponding enals using a newly developed reagent that has a longer shelf lifetime and can be activated under mild conditions.

Synthesis of novel conjugated enynes: a reaction of lithium acetylenides with β-dimethylaminovinyl ketones

Synthesis of novel conjugated enynes: a reaction of lithium acetylenides with β-dimethylaminovinyl ketones

Nickel‐Catalyzed Addition of Alkynylboranes to Alkynes.

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