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相关概念视频

Ketones with Nonenolizable Aromatic Aldehydes: Claisen–Schmidt Condensation01:01

Ketones with Nonenolizable Aromatic Aldehydes: Claisen–Schmidt Condensation

4.4K
Benzaldehyde, like formaldehyde, lacks an α hydrogen and cannot enolize to form an enolate. Hence, the reaction of benzaldehyde with a ketone in the presence of an aqueous base forms a single crossed product. This reaction is referred to as Claisen–Schmidt condensation.
As the self-condensation of ketones is generally not favored in basic conditions, the self-condensed products do not form in the reaction between ketones and benzaldehyde. The general reaction of Claisen–Schmidt...
4.4K
Protecting Groups for Aldehydes and Ketones: Introduction01:23

Protecting Groups for Aldehydes and Ketones: Introduction

8.7K
Protecting groups are compounds that can bind to a specific functional group in the presence of other functional groups to protect them from undesired chemical reactions. These compounds can selectively bind to particular functional groups and advance chemoselective reactions in polyfunctional systems (Figure 1). After the functional group has served its purpose, it is removed by reacting it with specific compounds.
8.7K
Aldol Condensation vs Claisen Condensation01:33

Aldol Condensation vs Claisen Condensation

7.7K
Aldol condensation is an acid or base-catalyzed condensation between aldehydes or ketones to give an α,ꞵ-unsaturated carbonyl compound. A base-promoted condensation between ester molecules to produce a ꞵ-ketoester is known as the Claisen condensation. In the presence of a base, both reactions involve deprotonation of the acidic α hydrogen to produce the corresponding enolates. The nucleophilic enolates attack their respective nonenolized carbonyl compound forming a tetrahedral...
7.7K
Acid-Catalyzed Aldol Addition Reaction01:15

Acid-Catalyzed Aldol Addition Reaction

3.2K
The aldol reaction of a ketone under acidic conditions successfully forms an unsaturated carbonyl as the final product instead of an aldol. The acid-catalyzed aldol reaction is depicted in Figure 1.
3.2K
Carboxylic Acids to Primary Alcohols: Hydride Reduction01:17

Carboxylic Acids to Primary Alcohols: Hydride Reduction

4.7K
Carboxylic acids, upon reaction with strong reducing agents such as lithium aluminum hydride followed by hydrolysis, undergo reduction to form primary alcohols.
4.7K
C–C Bond Formation: Aldol Condensation Overview01:10

C–C Bond Formation: Aldol Condensation Overview

16.1K
Aldol condensation is an important route in synthetic organic chemistry used to generate a new carbon–carbon bond under basic or acidic conditions. The aldol condensation reaction presented in Figure 1 constitutes an aldol addition reaction followed by the dehydration process.
16.1K

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Chemoselective Modification of Viral Surfaces via Bioorthogonal Click Chemistry
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在不涉及侧链功能组的情况下捕获aldehyde绑定.

Junfeng Zhao1,2, Zhenjia Zhang2, Yongsheng Yang1,3

  • 1School of Biological Sciences, Nanyang Technological University, 60 Nanyang Drive, Singapore 637551, Singapore.

Organic letters
|November 4, 2025
PubMed
概括
此摘要是机器生成的。

一种新结合方法利用阿尔代捕获策略来进行一般的合成. 这种方法可以形成原生键,独立于侧链功能组.

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科学领域:

  • 有机化学 有机化学
  • 化学生物学 化学生物学
  • 合成化学 合成化学

背景情况:

  • 合成对于药物发现和生物化学研究至关重要.
  • 现有的结合方法经常面临功能组兼容性和效率方面的局限性.
  • 开发通用和强大的结合策略仍然是一个活跃的研究领域.

研究的目的:

  • 开发一种一般的阿尔代捕获结合方法.
  • 为了实现独立于侧链功能群的本源键形成.
  • 为了证明开发的绑定策略的广泛适用性.

主要方法:

  • 一个盐酸甲基与一个N终端氨基的凝结.
  • 在现场形成一个1,2,5-oxadiazinane环,由一个N-基辅助组促进.
  • O,N-转移形成一个三级胺基结合.
  • 使用SmI2进行减小切割,以产生原生.

主要成果:

  • 成功开发了一种新结合方法.
  • 该方法允许独立于侧链功能组的结合.
  • N-基辅助组提供了一个一般的结合结.
  • 该方法以广泛的基质为例.

结论:

  • 开发的阿尔代捕获结合方法是通用和高效的.
  • 这种方法为合成具有本地链接的提供了有价值的工具.
  • 该战略扩大了可用于各种应用的可访问结构的范围.