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ortho–para-Directing Activators: –CH3, –OH, –⁠NH2, –OCH301:11

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All ortho–para directors, excluding halogens, are activating groups. These groups donate electrons to the ring, making the ring carbons electron-rich. Consequently, the reactivity of the aromatic ring towards electrophilic substitution increases. For instance, the nitration of anisole is about 10,000 times faster than the nitration of benzene. The electron-donating effect of the methoxy group in anisole activates the ortho and para positions on the ring and stabilizes the corresponding...
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Bromination and chlorination of aromatic rings by electrophilic aromatic substitution reactions are easily achieved, but fluorination and iodination are difficult to achieve. Fluorine is so reactive that its reaction with benzene is difficult to control, resulting in poor yields of monofluoroaromatic products. To address this, Selectfluor reagent is used as a fluorine source in which a fluorine atom is bonded to a positively charged nitrogen.
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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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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

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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...
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Diazonium Group Substitution: –OH and –H01:19

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Nitrous acid, a weak acid, is prepared in situ via the reaction of sodium nitrite with a strong acid under cold conditions. This nitrous acid prepared in situ reacts with primary arylamines to form arenediazonium salts. Such reactions are known as diazotization reactions. As shown in Figure 1, the formation of arenediazonium salts begins with the decomposition of nitrous acid in an acidic solution to give nitrosonium ions.
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A Direct, Regioselective and Atom-Economical Synthesis of 3-Aroyl-N-hydroxy-5-nitroindoles by Cycloaddition of 4-Nitronitrosobenzene with Alkynones
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Introducción Regioselectiva de Porciones de Indolin-3-ona a Compuestos Heteroaromáticos Sustituidos

Andrew J Daszczynski1, Nina Bui1, F G West1

  • 1Department of Chemistry, University of Alberta, Edmonton, Alberta T6G 2G2, Canada.

The Journal of organic chemistry
|December 22, 2025
PubMed
Resumen
Este resumen es generado por máquina.

Un nuevo método catalítico dual sintetiza eficientemente indolin-3-onas C2-sustituidas. Este enfoque utiliza un intermedio reactivo de C-acylimina para la funcionalización selectiva de biomoléculas, ampliando la química sintética.

Palabras clave:
indolin-3-onascatálisis dualfuncionalización de biomoléculasquímica sintéticaintermediario de C-acylimina

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Área de la Ciencia:

  • Química Orgánica
  • Catálisis
  • Metodología Sintética

Sus antecedentes:

  • Las indolin-3-onas C2-sustituidas son compuestos heterocíclicos valiosos.
  • Los métodos sintéticos existentes pueden carecer de eficiencia o aplicabilidad general.

Objetivo del estudio:

  • Desarrollar un método catalítico dual suave y eficiente para la síntesis de indolin-3-onas C2-sustituidas.
  • Explorar el alcance y la selectividad del intermedio de C-acylimina generado.
  • Demostrar la utilidad de este método para la funcionalización en etapa tardía de biomoléculas.

Principales métodos:

  • Se empleó un sistema catalítico dual para generar una especie reactiva de C-acylimina in situ.
  • El intermedio de C-acylimina fue interceptado por varios arenes nucleofílicos.
  • Se realizaron experimentos de competencia para evaluar la selectividad de la C-acylimina.
  • El método se aplicó para funcionalizar melatonina, aminoácidos protegidos y dipéptidos.

Principales resultados:

  • El método catalítico dual formó con éxito indolin-3-onas C2-sustituidas en condiciones suaves.
  • El intermedio de C-acylimina demostró una captura regioselectiva por parte de arenes, incluso cuando el sitio más reactivo estaba bloqueado.
  • Se identificó el pirrol como una trampa heteroaromática preferida sobre otros heterociclos probados.
  • Se logró la funcionalización en etapa tardía de melatonina, aminoácidos y dipéptidos, mostrando el potencial del método.

Conclusiones:

  • Se ha establecido una estrategia catalítica dual novedosa y suave para la síntesis de indolin-3-onas C2-sustituidas.
  • El intermedio de C-acylimina exhibe perfiles de reactividad y selectividad útiles.
  • Esta metodología ofrece una herramienta valiosa para la diversificación en etapa tardía de biomoléculas complejas.