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相关概念视频

Amines to Amides: Acylation of Amines01:19

Amines to Amides: Acylation of Amines

2.4K
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...
2.4K
Acid Halides to Amides: Aminolysis01:07

Acid Halides to Amides: Aminolysis

2.7K
Aminolysis is a nucleophilic acyl substitution reaction, where ammonia or amines act as nucleophiles to give the substitution product. Acid halides react with ammonia, primary amines, and secondary amines to yield primary, secondary, and tertiary amides, respectively.
In the first step of the aminolysis mechanism, the amine attacks the carbonyl carbon of the acyl chloride to form a tetrahedral intermediate. In the second step, the carbonyl group is re-formed with the elimination of a chloride...
2.7K
Preparation of 1° Amines: Hofmann and Curtius Rearrangement Mechanism01:26

Preparation of 1° Amines: Hofmann and Curtius Rearrangement Mechanism

3.5K
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...
3.5K
Structure of Amines01:19

Structure of Amines

2.5K
The hybridized nitrogen atom in amines possesses a lone pair of electrons and is bound to three substituents with a bond angle of around 108°, which is less than the tetrahedral angle of 109.5°. However, the C–N–H bond angle is slightly larger at 112°, with a carbon–nitrogen bond length of 147 pm. This carbon–nitrogen bond length of of amines is longer than the carbon–oxygen bond of alcohols (143 pm) but shorter than alkanes’...
2.5K
Amines to Alkenes: Cope Elimination01:14

Amines to Alkenes: Cope Elimination

2.0K
Cope elimination reaction involves the conversion of tertiary amines to alkene using hydrogen peroxide under thermal conditions, as depicted in figure 1.
2.0K
Preparation of Amines: Reductive Amination of Aldehydes and Ketones01:38

Preparation of Amines: Reductive Amination of Aldehydes and Ketones

2.8K
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.
2.8K

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相关实验视频

Updated: Jun 28, 2025

Versatile CO2 Transformations into Complex Products: A One-pot Two-step Strategy
07:36

Versatile CO2 Transformations into Complex Products: A One-pot Two-step Strategy

Published on: November 9, 2019

8.0K

在同一溶液中同时切换两个不同的CO2可切换氨基.

Matthew Sanger1, Daniel Barker1, Philip G Jessop1

  • 1Department of Chemistry, Queen's University, 90 Bader Lane, Kingston, Ontario, Canada K7L 2S8. jessop@queensu.ca.

Physical chemistry chemical physics : PCCP
|April 9, 2024
PubMed
概括

本研究介绍了一种模型,用于预测二氧化碳响应系统中两个不同基的pH和质子化. 在特定的度和基本度范围内,可以同时切换两个可CO2切换胺.

科学领域:

  • 化学 化学 化学
  • 材料科学 材料科学 材料科学
  • 化学工程是化学工程的重要组成部分.

背景情况:

  • 响应二氧化碳的材料利用基因,以响应二氧化碳的存在来质子化/解质子化.
  • 现有的研究重点是单基系统,限制了可转换二氧化碳材料的复杂性.
  • 了解多基系统中的相互作用对于先进的材料设计至关重要.

研究的目的:

  • 在不同的CO2条件下,在具有两种不同基的系统中,开发一种溶液pH和基质质子的预测模型.
  • 通过证明和分析两个不同的CO2可切换氨基的同时切换来实验验验证该模型.
  • 建立成功同时切换CO2响应系统中的多个基点的标准.

主要方法:

  • 开发一种预测模型,用于两个基的溶液pH和%质子化.
  • 在溶液中对两种不同的二氧化碳可切换胺进行实验研究.
  • 分析氨基度,度和pKaH值,以确定切换可行性.

主要成果:

  • 预测模型准确地预测了双基系统的溶液pH值和质子化水平.
  • 通过实验实现了两种可转换二氧化碳氨基的同时切换.
  • 成功切换需要特定的度和基本度范围,pKaH值不超过3个单位.

更多相关视频

Achieving Moderate Pressures in Sealed Vessels Using Dry Ice As a Solid CO2 Source
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Achieving Moderate Pressures in Sealed Vessels Using Dry Ice As a Solid CO2 Source

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Split-and-pool Synthesis and Characterization of Peptide Tertiary Amide Library
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Split-and-pool Synthesis and Characterization of Peptide Tertiary Amide Library

Published on: June 20, 2014

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相关实验视频

Last Updated: Jun 28, 2025

Versatile CO2 Transformations into Complex Products: A One-pot Two-step Strategy
07:36

Versatile CO2 Transformations into Complex Products: A One-pot Two-step Strategy

Published on: November 9, 2019

8.0K
Achieving Moderate Pressures in Sealed Vessels Using Dry Ice As a Solid CO2 Source
06:26

Achieving Moderate Pressures in Sealed Vessels Using Dry Ice As a Solid CO2 Source

Published on: August 17, 2018

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Split-and-pool Synthesis and Characterization of Peptide Tertiary Amide Library
13:37

Split-and-pool Synthesis and Characterization of Peptide Tertiary Amide Library

Published on: June 20, 2014

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结论:

  • 预测模型可以设计具有多个基础的复杂的二氧化碳响应系统.
  • 在定义条件下,同时切换两个可CO2切换胺是可行的.
  • 这项研究推动了复杂的二氧化碳捕获和响应性材料的开发.