On the Regioselectivity of the Cyclization of Enyne−Ketenes:  A Computational Investigation and Comparison with the Myers-Saito and Schmittel Reaction

Musch, Patrick W.; Remenyi, Christian; Helten, Holger; Engels, Bernd

doi:10.1021/ja017532f

Cited by 42 publications

(29 citation statements)

References 36 publications

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“…[17,18] In line with the work of others, [19] our analysis gave a DE value for the diradical 13 A and it was 4.1 kcal mol À1 lower than that for the zwitterionic isomer 13 B (see Figure 1a nd the Supporting Information). To test that hypothesis,w e modelled the reaction using DFT calculations [at the UB3LYP/6-311G(d,p) level].…”

Section: Methodssupporting

confidence: 88%

Exploring Diradical Chemistry: A Carbon‐Centered Radical May Act as either an Anion or Electrophile through an Orbital Isomer

et al. 2015

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Diradical intermediates,f ormed by thermolysis of alkynylcyclobutenones,c an displayr adical, anion, or electrophilic character because of the existence of an orbital isomer with zwitterionic and cyclohexatrienone character.O ur realization that water,alcohols,and certain substituents can induce the switch provides new opportunities in synthesis.F or example,i tc an be used to shut down radical pathwaysa nd to give access to aryl carbonates and tetrasubstituted quinones.

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Section: Methodssupporting

confidence: 88%

Exploring Diradical Chemistry: A Carbon‐Centered Radical May Act as either an Anion or Electrophile through an Orbital Isomer

et al. 2015

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“…Such enyne electrocyclizations have been studied by computational methods and have been compared with related cyclizations. 47 The factors that favor formation of either 5-or 6-membered rings are also discussed below.…”

Section: Cycloadditions and Electrocyclizations Of Vinylketenes Involmentioning

confidence: 99%

Cycloaddition and Electrocyclic Reactions of Vinylketenes, Allenylketenes, and Alkynylketenes

Tidwell

2015

Organic Reactions

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Vinylketenes may be prepared by the typical procedures used for other ketenes, and are usually highly reactive, except when bulky groups and silyl substituents are present. They are extensively utilized in cycloaddition reactions and electrocyclizations, including dimerizations, inter‐ and intramolecular reactions with alkenes, alkynes, imines, and carbonyl groups, and intramolecular reactions with aryl and heteroaryl groups. These pericyclic reactions are widely used in syntheses of carbocyclic and heterocyclic products, and are particularly useful for the preparation of β‐lactams and β‐lactones. Allenylketenes and alkynylketenes also undergo cycloaddition and electrocyclic reactions.

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“…The Myers–Saito C 2 C 7 cyclization of enyne–allenes1–4 has been a hot topic in recent years since α ,3‐didehydrotoluene biradicals play an important role in DNA‐cleavage reactions5 and subsequent reactions of synthetic interest 6, 7. The regioselectivity was first discovered by Schmittel and co‐workers,8–10 who induced a complete switch‐over from the well‐known C 2 C 7 (Myers–Saito)11, 12 cyclization (Scheme ) to a novel C 2 C 6 cyclization by using the aryl, or butyl group to replace the hydrogen at the alkyne terminus (R 1 = Ph or R 1 = t ‐Bu, SiMe 3 ).…”

Section: Introductionmentioning

confidence: 99%

Intramolecular Diels–Alder reaction in enyne–allenes: a computational investigation and comparison with the Myers–Saito and Schmittel reactions

Chen¹,

Chen²,

Ho³

2009

J of Physical Organic Chem

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The reaction mechanisms as well as substituted effect and solvent effect of the enyne-allenes are investigated by Density Functional Theory (DFT) method and compared with the Myers-Saito and Schmittel reactions. The Myers-Saito reaction of non-substituted enyne-allenes is kinetically and thermodynamically favored as compared to the Schmittel reaction; while the concerted [4 R 2] cycloaddition is only 1.32 kcal/mol higher than the C 2 ÀC 7 cyclization and more exothermic (D R E ¼ S69.38 kcal/mol). For R 1 ¼ CH 3 and t-Bu, the increasing barrier of the C 2 ÀC 7 cyclization is higher than that for the C 2 ÀC 6 cyclization because of the steric effect, so the increased barrier of the [4 R 2] cycloaddition is affected by such substituted electron-releasing group. Moreover, the strong steric effect of R 1 ¼ t-Bu would shift the C 2 ÀC 7 cyclization to the [4 R 2] cycloaddition. On the other hand, for R 1 ¼ Ph, NH 2 , O S , NO 2 , and CN substituents, the barrier of the C 2 ÀC 6 cyclization would be more diminished than the C 2 ÀC 7 cyclization due to strong mesomeric effect; the reaction path of C 2 ÀC 7 cyclization would also shift to the [4 R 2] cycloaddition. The solvation does not lead to significant changes in the potential-energy surface of the reaction except for the more polar surrounding solvent such as dimethyl sulfoxide (DMSO), or water.Geometrical parameters of all the stationary points were optimized by employing the Density Functional Theory (DFT) implemented in the Gaussian 03 package. [28] For the DFT calculations, the B3LYP [29,30] functional in connection with a 6-31G(d) basis set was employed using a spin and space unrestricted ansatz. Optimized stationary points were characterized as minima or transition states by (www.interscience.wiley.com) a All DG z 298 values are given in kcal/mol. b Single point energy based on B3LYP/6-31G(d) geometry. c Reference [32].

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On the Regioselectivity of the Cyclization of Enyne−Ketenes: A Computational Investigation and Comparison with the Myers-Saito and Schmittel Reaction

Cited by 42 publications

References 36 publications

Exploring Diradical Chemistry: A Carbon‐Centered Radical May Act as either an Anion or Electrophile through an Orbital Isomer

Exploring Diradical Chemistry: A Carbon‐Centered Radical May Act as either an Anion or Electrophile through an Orbital Isomer

Cycloaddition and Electrocyclic Reactions of Vinylketenes, Allenylketenes, and Alkynylketenes

Intramolecular Diels–Alder reaction in enyne–allenes: a computational investigation and comparison with the Myers–Saito and Schmittel reactions

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