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Leaving Groups02:14

Leaving Groups

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The nature of leaving groups strongly influences the outcome of a nucleophilic substitution reaction.
In general, in a nucleophilic substitution reaction, a nucleophile displaces a functional group, called the leaving group, from the substrate to give a substituted product. A leaving group departs the substrate molecule through heterolytic cleavage, taking the pair of electrons with it to become a relatively stable weak base in the form of an anion or a neutral molecule.  
In a...
9.8K
Halogenation of Alkenes02:46

Halogenation of Alkenes

19.6K
Halogenation is the addition of chlorine or bromine across the double bond in an alkene to yield a vicinal dihalide. The reaction occurs in the presence of inert and non-nucleophilic solvents, such as methylene chloride, chloroform, or carbon tetrachloride.
Consider the bromination of cyclopentene. Molecular bromine is polarized in the proximity of the π electrons of cyclopentene. An electrophilic bromine atom adds across the double bond, forming a cyclic bromonium ion intermediate.
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Alkyl Halides02:45

Alkyl Halides

20.3K
Structural Properties
Alkyl halides are halogen-substituted alkanes wherein one or more hydrogen atoms of an alkane is replaced by a halogen atom such as fluorine, chlorine, bromine, or iodine. The carbon atom in an alkyl halide is bonded to the halogen atom, which is sp3-hybridized and exhibits a tetrahedral shape.
Unlike alkyl halides, compounds in which a halogen atom is bonded to an sp2 -hybridized carbon atom of a carbon-carbon double bond (C=C) are called vinyl halides. Whereas aryl...
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Elimination Reactions02:25

Elimination Reactions

17.4K
A nucleophile can react with an alkyl halide to give the substitution product by displacing the halogen. Or it can function as a base to give the elimination product by deprotonation of the neighboring carbon to form an alkene. In an elimination reaction, the substrate loses two groups from adjacent carbons forming at least one π bond. The carbon attached to the halogen is called the α carbon, while the adjacent carbon is called the β carbon; hence, these reactions are called...
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Predicting Products: Substitution vs. Elimination02:52

Predicting Products: Substitution vs. Elimination

14.9K
When a nucleophile and an alkyl halide react, nucleophilic substitution and β-elimination reactions compete to generate products.
The following factors can influence the mechanisms competing against each other:
14.9K
Regioselectivity and Stereochemistry of Hydroboration02:36

Regioselectivity and Stereochemistry of Hydroboration

9.5K
A significant aspect of hydroboration–oxidation is the regio- and stereochemical outcome of the reaction.
Hydroboration proceeds in a concerted fashion with the attack of borane on the π bond, giving a cyclic four-centered transition state. The –BH2 group is bonded to the less substituted carbon and –H to the more substituted carbon. The concerted nature requires the simultaneous addition of –H and –BH2 across the same face of the alkene giving syn stereochemistry.
9.5K

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Video Experimental Relacionado

Updated: Feb 19, 2026

The Synthesis of [Sn10SiSiMe334]2- Using a Metastable SnI Halide Solution Synthesized via a Co-condensation Technique
12:43

The Synthesis of [Sn10SiSiMe334]2- Using a Metastable SnI Halide Solution Synthesized via a Co-condensation Technique

Published on: November 28, 2016

9.1K

Modulación de las tendencias del grupo saliente haluro mediante reconocimiento por bisboranos

Tong-Tong Liu1, Xiao-Wen Li1, Yun-Shu Cui1

  • 1Department of Chemistry, Fudan University Shanghai 200438 P. R. China zjshi@fudan.edu.cn zhaidandan@fudan.edu.cn liufeng@fudan.edu.cn.

Chemical science
|February 18, 2026
PubMed
Resumen
Este resumen es generado por máquina.

Los investigadores desarrollaron un sistema dinámico de reconocimiento de aniones utilizando una plataforma de ácido de Lewis bidentado. Este avance permite una inversión de la tendencia típica del grupo saliente haluro en reacciones de sustitución nucleofílica.

Palabras clave:
reconocimiento de anionesácido de Lewis bidentadogrupo saliente halurosustitución nucleofílicaquímica sintéticaquímica supramolecularquímica organometálica

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Área de la Ciencia:

  • Química Sintética
  • Química Supramolecular
  • Química Organometálica

Sus antecedentes:

  • La modulación de la capacidad del grupo saliente haluro es crucial pero desafiante en la síntesis.
  • Los métodos existentes carecen de control sobre la reactividad intrínseca de los haluros.

Objetivo del estudio:

  • Desarrollar un sistema dinámico de reconocimiento de aniones para haluros.
  • Aplicar este sistema en reacciones de sustitución nucleofílica.
  • Lograr una inversión aparente de la tendencia del grupo saliente haluro.

Principales métodos:

  • Diseño y síntesis de un huésped de ácido de Lewis bidentado.
  • Caracterización de complejos huésped-huésped mediante espectroscopia de RMN y cristalografía de rayos X.
  • Experimentos de unión competitiva e intercambio de aniones.

Principales resultados:

  • Unión selectiva de iones haluro por la plataforma de ácido de Lewis.
  • Afinidades de unión sintonizables influenciadas por el tamaño de la cavidad del huésped.
  • Demostración de la inversión de las habilidades de salida de bromuro y cloruro en reacciones catalizadas.

Conclusiones:

  • El reconocimiento dinámico de aniones ofrece una estrategia novedosa para controlar la reactividad de los haluros.
  • El sistema desarrollado revierte con éxito la secuencia convencional del grupo saliente.
  • Este enfoque abre nuevas vías en la química sintética para transformaciones de organohaluros.