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Radical Reactivity: Steric Effects01:10

Radical Reactivity: Steric Effects

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The presence of electron-donating, electron-withdrawing, or conjugating groups adjacent to a radical center, imparts electronic stabilization to the radicals. Examples of such electronically-stabilized radicals are triphenylmethyl, tetramethylpiperidine‐N‐oxide, and 2,2‐diphenyl‐1‐picrylhydrazyl. These radicals are remarkably stable and are known as persistent radicals. Some of the persistent radicals can even be isolated and purified.
Along with electronic...
2.6K
Radical Reactivity: Nucleophilic Radicals01:16

Radical Reactivity: Nucleophilic Radicals

2.7K
Radicals adjacent to electron-donating groups are called nucleophilic radicals. These radicals readily react with electrophilic alkenes. The SOMO–LUMO interactions are the driving force for the reaction, where the high-energy SOMO of the electron-rich, nucleophilic radicals interacts with the low-energy LUMO of the electron-deficient, electrophilic alkenes. Such SOMO–LUMO interactions are the basis of reactive radical traps, affecting the selectivity in radical reactions. For...
2.7K
Radical Reactivity: Electrophilic Radicals01:02

Radical Reactivity: Electrophilic Radicals

2.5K
Radicals adjacent to electron‐withdrawing groups are called electrophilic radicals. These radicals readily react with nucleophilic alkenes. For example, the malonate radical, in which the radical center is flanked by two electron‐withdrawing groups, reacts readily with butyl vinyl ether, which consists of an electron‐donating oxygen substituent. The reaction between electrophilic malonate radical and nucleophilic vinyl ether is favored because the radical has a...
2.5K
Radical Substitution: Hydrogenolysis of Alkyl Halides with Tributyltin Hydride01:26

Radical Substitution: Hydrogenolysis of Alkyl Halides with Tributyltin Hydride

2.3K
Radical substitution reactions can be used to remove functional groups from molecules. The hydrogenolysis of alkyl halides is one such reaction, where the weak Sn–H bond in tributyltin hydride reacts with alkyl halides to form alkanes. Here, the reagent Bu3SnH yields tributyltin halide as a byproduct.
The bonds formed in this reaction are stronger than the bonds broken, making it energetically favorable. The reaction follows a radical chain mechanism similar to radical halogenation reactions,...
2.3K
Radical Reactivity: Overview01:11

Radical Reactivity: Overview

2.9K
Radicals, the highly reactive species, gain stability by undergoing three different reactions. The first reaction involves a radical-radical coupling, in which a radical combines with another radical, forming a spin‐paired molecule. The second reaction is between a radical and a spin‐paired molecule, generating a new radical and a new spin‐paired molecule. The third reaction is radical decomposition in a unimolecular reaction, forming a new radical and a spin‐paired...
2.9K
Stability of Conjugated Dienes01:28

Stability of Conjugated Dienes

4.6K
Introduction
A comparison of the enthalpies of hydrogenation of dienes reveals that conjugated dienes release less heat on hydrogenation, rendering them more stable than their nonconjugated analogs.
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Updated: Mar 2, 2026

Isolating Free Carbenes, their Mixed Dimers and Organic Radicals
10:44

Isolating Free Carbenes, their Mixed Dimers and Organic Radicals

Published on: April 19, 2019

11.7K

Un radical aniónico ditiloeno estable

Yuzhong Wang1, Hunter P Hickox1, Yaoming Xie1

  • 1Department of Chemistry and the Center for Computational Chemistry, The University of Georgia , Athens, Georgia 30602-2556, United States.

Journal of the American Chemical Society
|May 9, 2017
PubMed
Resumen
Este resumen es generado por máquina.

Los investigadores sintetizaron un nuevo radical aniónico de tioleno a través de la sulfurización de carbenos N-heterocíclicos. Este radical se usó luego para crear un complejo único de germanio (IV) -bis (dietileno), expandiendo el conocimiento en química inorgánica.

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Área de la Ciencia:

  • Química inorgánica
  • Química organometálica
  • Ciencias de los materiales

Sus antecedentes:

  • Los carbenos N-heterocíclicos (NHC) son ligandos versátiles en la química de la coordinación.
  • Las reacciones de sulfurización ofrecen vías para nuevos compuestos que contienen azufre.
  • Los complejos de ditoileno son importantes en varios campos, incluida la catálisis y la electrónica.

Objetivo del estudio:

  • Para sintetizar y caracterizar un nuevo aniónico dithiolene radical.
  • Para explorar la reactividad de este radical con los precursores de germanio.
  • Para investigar la naturaleza de la unión en el complejo de germanio resultante.

Principales métodos:

  • Sulfuración de un precursor aniónico de N-heterocíclico del dicarbeno con azufre elemental.
  • Caracterización de los compuestos sintetizados mediante técnicas experimentales (por ejemplo, cristalografía de rayos X).
  • Cálculos teóricos para detectar las propiedades de unión.

Principales resultados:

  • Síntesis exitosa de un intermediario NHC polimérico sulfurado.
  • Formación del primer radical dietioleno aniónico estructuralmente caracterizado a través de la activación de C-H.
  • Síntesis de un complejo aniónico de germanio (IV) -bis (diotioleno).

Conclusiones:

  • El estudio demuestra una nueva vía para los radicales aniónicos de tioleno y sus complejos.
  • Los hallazgos amplían el alcance de la química de la sulfurización con los NHC.
  • El complejo de germanio caracterizado ofrece nuevas posibilidades para aplicaciones de la ciencia de los materiales.