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相关概念视频

Radical Reactivity: Overview01:11

Radical Reactivity: Overview

2.1K
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...
2.1K
Radical Reactivity: Nucleophilic Radicals01:16

Radical Reactivity: Nucleophilic Radicals

2.1K
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...
2.1K
Radical Formation: Overview01:03

Radical Formation: Overview

2.1K
A bond can be broken either by heterolytic bond cleavage to form ions or homolytic bond cleavage to yield radicals. A fishhook arrow is used to represent the motion of a single electron in homolytic bond cleavage. There are two main sources from which radicals can be formed:
Radicals from spin-paired molecules:
Radicals can be obtained from spin-paired molecules either by homolysis or electron transfer. While two radicals are formed in the former, an electron is added in the...
2.1K
Radical Formation: Addition00:47

Radical Formation: Addition

1.7K
Radicals can be formed by adding a radical to a spin-paired molecule. This is typically observed with unsaturated species, where the addition of a radical across the π bond leads to the production of a new radical by dissolving the π bond. For example, the addition of a Br radical to an alkene yields a carbon-centered radical.
Similar to charge conservation in chemical reactions, spin conservation is implicit for radical reactions. Accordingly, the product formed must possess an...
1.7K
Radicals: Electronic Structure and Geometry01:07

Radicals: Electronic Structure and Geometry

4.1K
This lesson delves into the geometry of a radical, which is influenced by the electronic structure of the molecule. The principle is similar to that of a lone pair, where the unpaired electron influences the geometry at the radical center.
Accordingly, the structure of a trivalent radical lies between the geometries of carbocations and carbanions. An sp2-hybridized carbocation is trigonal planar, while an sp3-hybridized carbanion is trigonal pyramidal. Here, the difference in geometry is...
4.1K
Radical Reactivity: Electrophilic Radicals01:02

Radical Reactivity: Electrophilic Radicals

1.9K
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...
1.9K

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相关实验视频

Updated: Jul 19, 2025

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

Isolating Free Carbenes, their Mixed Dimers and Organic Radicals

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基于 heteroatom 的激进分子.

Alexander Hinz1, Jonas Bresien2, Frank Breher1

  • 1Institut für Anorganische Chemie (AOC), Karlsruher Institut für Technologie (KIT), Engesserstrasse 15, 76131 Karlsruhe, Germany.

Chemical reviews
|August 9, 2023
PubMed
概括

本综述探讨了以 heteroatom 为中心的 diradicaloids,从理论基础发展为理性设计策略的概念. 它强调了它们独特的反应性和在小分子激活等领域的应用.

科学领域:

  • 分子主要组化学分子.
  • 理论化学是一种理论化学.

背景情况:

  • 几十年来一直研究着以 heteroatom 为中心的 diradicaloid.
  • 该领域已经转向针对特定应用的合理设计.

研究的目的:

  • 审查对二根和四根概念的理论考量.
  • 以突出基于理论见解的迪拉基卡洛伊德的理性设计.
  • 讨论以异原子为中心的二基反应及其应用.

主要方法:

  • 对二根和四根概念的理论考虑.
  • 设计原则的分析,包括连接物选择,固体,对称性,电子和元素选择.
  • 开放的二基反应活性与封闭反应的比较.
  • 对光谱性质和最近的文献 (过去10年) 的审查.

主要成果:

  • 已经阐明了迪拉基卡洛伊德的设计原则.
  • 与协同的封闭外反应相比,以异原子为中心的二基反应具有明显的阶段反应性.
  • 迪拉基化物在小分子激活和分子开关等应用中显示出潜力.

结论:

  • 通过设计考虑和反应性比较,可以通过理性地理解迪拉基类反应性.

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  • 最近对以 heteroatom 为中心的 diradicaloids 和 tetraradicaloids 的进展已经扩大了它们的范围.
  • 迪拉基化物代表了一类具有显著应用潜力的多功能化合物.