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Nucleophilic Aromatic Substitution: Elimination–Addition01:11

Nucleophilic Aromatic Substitution: Elimination–Addition

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Simple aryl halides do not react with nucleophiles. However, nucleophilic aromatic substitutions can be forced under certain conditions, such as high temperatures or strong bases. The mechanism of substitution under such conditions involves the highly unstable and reactive benzyne intermediate. Benzyne contains equivalent carbon centers at both ends of the triple bond, each of which is equally susceptible to nucleophilic attack. This 50–50 distribution of products is...
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Nucleophilic Aromatic Substitution: Addition–Elimination (SNAr)01:30

Nucleophilic Aromatic Substitution: Addition–Elimination (SNAr)

3.7K
Nucleophilic substitution in aromatic compounds is feasible in substrates bearing strong electron-withdrawing substituents positioned ortho or para to the leaving group. The reaction proceeds via two steps: the addition of the nucleophile and the elimination of the leaving group.
The reaction begins with an attack of the nucleophile on the carbon that holds the leaving group. This results in the delocalization of the π electrons over the ring carbons. The resonance interaction between...
3.7K
¹H NMR: Long-Range Coupling01:27

¹H NMR: Long-Range Coupling

1.7K
The coupling interactions of nuclei across four or more bonds are usually weak, with J values less than 1 Hz. While these are usually not observed in spectra, the presence of multiple bonds along the coupling pathway can result in observable long-range coupling.
In alkenes, spin information is communicated via σ–π overlap, as seen in allylic (four-bond) and homoallylic (five-bond) couplings. These coupling interactions are stronger when the σ bond is parallel to the alkene...
1.7K
Aryldiazonium Salts to Azo Dyes: Diazo Coupling01:11

Aryldiazonium Salts to Azo Dyes: Diazo Coupling

2.9K
The reaction of weakly electrophilic aryldiazonium (also called arenediazonium) salts with highly activated aromatic compounds leads to the formation of products with an —N=N— link, called an azo linkage. This reaction, presented in Figure 1, is known as diazo coupling and occurs without the loss of the nitrogen atoms of the aryldiazonium salt. Highly activated aromatic compounds such as phenols or arylamines favor the diazo coupling reaction. The coupling generally occurs at the...
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Nucleophilic Aromatic Substitution of Aryldiazonium Salts: Aromatic SN101:14

Nucleophilic Aromatic Substitution of Aryldiazonium Salts: Aromatic SN1

2.1K
Treating arylamines with nitrous acid gives aryldiazonium salts that are effective substrates in nucleophilic aromatic substitution reactions. The diazonio group in these salts can be easily displaced by different nucleophiles, yielding a wide variety of substituted benzenes. The leaving group departs as nitrogen gas, and this easy elimination is the driving force for the substitution reaction.
In the Sandmeyer reaction, for example, the diazonio group is replaced by a chloro, bromo,...
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[3,3] Sigmatropic Rearrangement of 1,5-Dienes: Cope Rearrangement01:21

[3,3] Sigmatropic Rearrangement of 1,5-Dienes: Cope Rearrangement

2.6K
The Cope rearrangement is classified as a [3,3] sigmatropic shift in 1,5-dienes, leading to a more stable, isomeric 1,5-diene. The reaction involves a concerted movement of six electrons, four from two π bonds and two from a σ bond, via an energetically favorable chair-like transition state.
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Video Experimental Relacionado

Updated: Jun 4, 2025

Mizoroki-Heck Cross-coupling Reactions Catalyzed by Dichloro{bis[1,1',1''-phosphinetriyltripiperidine]}palladium Under Mild Reaction Conditions
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Mizoroki-Heck Cross-coupling Reactions Catalyzed by Dichloro{bis[1,1',1''-phosphinetriyltripiperidine]}palladium Under Mild Reaction Conditions

Published on: March 20, 2014

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Acoplamiento cruzado de arilo migratorio

Yoshiya Sekiguchi1, Polpum Onnuch1, Yuli Li1

  • 1Department of Chemistry and Chemical Biology, Harvard University, 12 Oxford St., Cambridge, Massachusetts 02138, United States.

Journal of the American Chemical Society
|December 18, 2024
PubMed
Resumen
Este resumen es generado por máquina.

Este estudio introduce un nuevo método de acoplamiento cruzado que permite el acceso a múltiples isómeros a partir de un solo material de partida. Un catalizador de paladio voluminoso facilita la transposición de haluro de arilo, lo que permite una resolución cinética dinámica para la síntesis de productos no convencionales.

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Preparation of a Corannulene-functionalized Hexahelicene by CopperI-catalyzed Alkyne-azide Cycloaddition of Nonplanar Polyaromatic Units
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Preparation of a Corannulene-functionalized Hexahelicene by CopperI-catalyzed Alkyne-azide Cycloaddition of Nonplanar Polyaromatic Units
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Área de la Ciencia:

  • Química orgánica
  • Catálisis
  • Metodología sintética

Sus antecedentes:

  • Las reacciones de acoplamiento cruzado suelen exhibir especificidad regional, dictada por la posición del grupo de salida.
  • La síntesis de diferentes patrones de sustitución generalmente requiere la preparación de nuevos isómeros de material de partida.

Objetivo del estudio:

  • Desarrollar variantes de acoplamiento para acceder a múltiples isómeros estructurales de socios de acoplamiento idénticos.
  • Establecer un método que evite la necesidad de sintetizar isómeros de material de partida distintos.

Principales métodos:

  • Utilización de un catalizador de paladio voluminoso para promover la transposición reversible de haluro de arilo a través de intermediarios metálicos arianos transitorios.
  • Emplear una estrategia de adición gradual de nucleófilos para la resolución cinética dinámica de los intermedios isoméricos.
  • Investigar el mecanismo de reacción utilizando datos computacionales y experimentales, incluido un análisis cinético de Curtin-Hammett.

Principales resultados:

  • Transposición eficiente y reversible demostrada de haluros de arilo.
  • Se obtienen altos rendimientos de isómeros de productos no convencionales mediante resolución cinética dinámica.
  • Mostró la compatibilidad del método con varios nucleófilos centrados en oxígeno y nitrógeno y grupos funcionales comunes.

Conclusiones:

  • Desarrolló una nueva estrategia de acoplamiento migratorio que ofrece acceso a diversos isómeros estructurales.
  • Estableció un marco mecanicista general para este enfoque, apoyado en el análisis cinético.
  • El método proporciona una alternativa versátil a la síntesis tradicional de isómeros en reacciones de acoplamiento cruzado.