Domingo Domı́nguez scite author profile

2-Propynyldiarylacetylenes undergo thermal intramolecular [4 + 2] cycloaddition to give benzo[b]fluorene derivatives in good yields. The hybridization of the tether connecting the reacting alkynes has a pronounced effect on the course of the reaction. Theoretical calculations and isotopic labeling studies support a mechanism which involves the generation of a cyclic allene intermediate that evolves to the final benzo[b]fluorene.

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Intramolecular Dehydro Diels−Alder Reactions of Diarylacetylenes: Switching between Benzo[b]- and Benzo[c]fluorenones as Products by Controlling the Rearrangement of Cyclic Allene Intermediates

Rodrı́guez

Martínez-Esperón

Navarro‐Vázquez

et al. 2004

J. Org. Chem.

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Alkaloids from Sarcocapnos enneaphylla

Tojo¹,

Domı́nguez²,

Castedo³

1991

Phytochemistry

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Synthesis of isoindoloisoquinoline alkaloids. A revision of the structure of (±)-nuevamine

Alonso¹,

Castedo²,

Domı́nguez³

1985

Tetrahedron Letters

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Cyclic Allene Intermediates in Intramolecular Dehydro Diels−Alder Reactions: Labeling and Theoretical Cycloaromatization Studies

et al. 2003

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A comprehensive theoretical and experimental investigation of dehydro Diels-Alder reactions examining the evolution of the cyclic allene intermediates under conditions for intramolecular and ionic and radical intermolecular cycloaromatization processes is reported. Theoretical calculations showed that the most favored intramolecular path for cycloaromatization of 1,2,4-cyclohexatriene 4 and its benzoannulated derivative 14, strained cyclic allenes, consists of a pair of successive [1,2] H shifts rather than a [1,5] shift. Cycloaromatization of cyclic allenes may follow both inter- and intramolecular pathways, depending on the experimental conditions (use of protic or aprotic solvents). For synthetic purposes, the best procedure is to use a protic solvent to promote the ionic intermolecular route, the fastest and highest yielding. When the reaction is carried out in CCl4, intermolecular radical addition of chlorine to the cyclic allene competes with intramolecular aromatization paths. Theoretical calculations predict a low barrier for the reaction of cyclic allenes with carbon tetrachloride, and that the cyclic allenes act as nucleophiles in this reaction.

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