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相关概念视频

Amines to Amides: Acylation of Amines01:19

Amines to Amides: Acylation of Amines

2.7K
Various carboxylic acid derivatives (such as acid chlorides, esters, and anhydrides) can be used for the acylation of amines to yield amides. The reaction requires two equivalents of amines. The first amine molecule functions as a nucleophile and attacks the carbonyl carbon to produce a tetrahedral intermediate. This is followed by the loss of the leaving group and restoration of the C=O bond.
Next, the second equivalent of amine serves as a Brønsted base and deprotonates the quaternary...
2.7K
Preparation of Amines: Reduction of Oximes and Nitro Compounds01:29

Preparation of Amines: Reduction of Oximes and Nitro Compounds

4.1K
Oximes can be reduced to primary amines using catalytic hydrogenation, hydride reduction, or sodium metal reduction. The reduction of aliphatic and aromatic nitro compounds to primary amines takes place by either catalytic hydrogenation or by using active metals like Fe, Zn, and Sn in the presence of an acid.
Though catalytic hydrogenation can reduce nitrobenzenes, the reduction is nonselective in the presence of other functional groups. For instance, if nitrobenzene contains an aldehyde group,...
4.1K
Preparation of Amines: Reductive Amination of Aldehydes and Ketones01:38

Preparation of Amines: Reductive Amination of Aldehydes and Ketones

3.2K
Carbonyl compounds and primary amines undergo reductive amination first to produce imines, followed by secondary amines in the same reaction mixture, using selective reducing agents like sodium cyanoborohydride or sodium triacetoxyborohydride. Reductive amination produces different degrees of substitution of amines depending on the starting amine substrate.
3.2K
Preparation of 1° Amines: Azide Synthesis01:22

Preparation of 1° Amines: Azide Synthesis

4.2K
Direct alkylation of ammonia produces polyalkylated amines, along with a quaternary ammonium salt. To exclusively prepare primary amines, the azide synthesis method can be used.
Azide ions act as good nucleophiles and react with unhindered alkyl halides to form alkyl azides. Alkyl azides do not participate in further nucleophilic substitution reactions, thereby eliminating the chances of polyalkylated products. Alkyl azides are reduced by hydride-based reducing agents, like lithium aluminum...
4.2K
Preparation of 1° Amines: Hofmann and Curtius Rearrangement Mechanism01:26

Preparation of 1° Amines: Hofmann and Curtius Rearrangement Mechanism

3.6K
The Hofmann and Curtius rearrangement reactions can be applied to synthesize primary amines from carboxylic acid derivatives such as amides and acyl azides. In the Hofmann rearrangement, a primary amide undergoes deprotonation in the presence of a base, followed by halogenation to generate an N-haloamide. A second proton abstraction produces a stabilized anionic species, which rearranges to an isocyanate intermediate via an alkyl group migration from the carbonyl carbon to the neighboring...
3.6K
Preparation of 1° Amines: Hofmann and Curtius Rearrangement Overview01:07

Preparation of 1° Amines: Hofmann and Curtius Rearrangement Overview

3.3K
In the presence of an aqueous base and a halogen, primary amides can lose the carbonyl (as carbon dioxide) and undergo rearrangement to form primary amines. This reaction, called the Hofmann rearrangement, can produce primary amines (aryl and alkyl) in high yields without contamination by secondary and tertiary amines.
3.3K

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Synthesis of Antiviral Tetrahydrocarbazole Derivatives by Photochemical and Acid-catalyzed C-H Functionalization via Intermediate Peroxides CHIPS
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通过交替电流频率控制选择性氨基功能化的一或两电子氧化

Disni Gunasekera1, Jyoti P Mahajan1, Yanick Wanzi1

  • 1Department of Chemistry, Wayne State University, Detroit, Michigan 48202, United States.

Journal of the American Chemical Society
|May 27, 2022
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概括
此摘要是机器生成的。

研究人员开发了一种使用交流电流 (AC) 频率进行选择性氨基氧化的新型电合成方法. 这种方法产生了关键的介质和预测最佳条件,简化了复杂的化学反应.

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科学领域:

  • 有机电化学
  • 合成有机化学
  • 催化剂

背景情况:

  • 选择性氧化三级胺对于合成有价值的有机化合物至关重要.
  • 传统的方法往往与化学选择性作斗争,导致不必要的副产品,如酸.
  • 优化电合成反应条件通常涉及耗时的试错程序.

研究的目的:

  • 开发一种新型的电合成方法,用于三级胺的选择性单电子氧化.
  • 为了有效地产生α-氨基基中间体,避免二电子氧化成离子.
  • 建立一个预测方法来优化交流电解条件.

主要方法:

  • 使用独特的交流电流 (AC) 频率的电合成.
  • 循环电压测量研究以确定电化学描述器.
  • 描述器用于预测各种氨基基底的最佳交流频率.

主要成果:

  • 实现了三级胺的选择性一电子氧化到α-氨基基中间体.
  • 通过控制交流频率,便于获取空调产品.
  • 确定了可靠的电化学描述器来预测最佳的交流频率,从而缩短了优化时间.

结论:

  • 开发的交流电解方法为解决有机合成中的化学选择性挑战提供了强大的替代方案.
  • 预测描述器简化了电合成反应的优化过程.
  • 这项工作通过提供更高效和可预测的方法来推进电有机合成领域.