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Preparation of Carboxylic Acids: Carboxylation of Grignard Reagents01:13

Preparation of Carboxylic Acids: Carboxylation of Grignard Reagents

4.3K
Carboxylic acids can be prepared by the carboxylation of Grignard reagents (RMgX). This method is convenient for converting alkyl (primary, secondary or tertiary), vinyl, benzyl, and aryl halides to carboxylic acids with one additional carbon than the starting RMgX.
4.3K
Loss of Carboxy Group as CO2: Decarboxylation of β-Ketoacids01:02

Loss of Carboxy Group as CO2: Decarboxylation of β-Ketoacids

3.1K
Carboxylic acids, upon heating, undergo a decarboxylation reaction by releasing carbon dioxide gas. Monocarboxylic acids do not undergo decarboxylation easily. However, a silver salt of carboxylic acid reacts with bromine or iodine under high temperature to release carbon dioxide gas and forms halide with one less carbon. This reaction is called the Hunsdiecker reaction.
3.1K
Loss of Carboxy Group as CO2: Decarboxylation of Malonic Acid Derivatives01:35

Loss of Carboxy Group as CO2: Decarboxylation of Malonic Acid Derivatives

1.9K
Just like β-keto acids—which upon thermal decarboxylation form ketones—β-dicarboxylic acids undergo decarboxylation to generate monocarboxylic acids with the liberation of carbon dioxide.
1.9K
Carbocations02:10

Carbocations

10.9K
Carbocations are one of the reaction intermediates formed during several nucleophilic substitutions or elimination reactions. A carbocation is an electron-deficient species with the central carbon atom having six electrons and three bonded atoms. The central carbon in a carbocation is sp2 hybridized with trigonal planar geometry. It has an empty p orbital perpendicular to the plane of the structure that can accept electrons. Thus, carbocations act as strong electrophiles and may react with any...
10.9K
Carboxylic Acids to Methylesters: Alkylation using Diazomethane01:33

Carboxylic Acids to Methylesters: Alkylation using Diazomethane

2.1K
Carboxylic acids react with diazomethane in an ether solvent via alkylation at the carboxylate oxygen atom to give methyl esters of the corresponding acid with excellent yields.
2.1K
Alkynes to Aldehydes and Ketones: Hydroboration-Oxidation02:47

Alkynes to Aldehydes and Ketones: Hydroboration-Oxidation

17.8K
Introduction
One of the convenient methods for the preparation of aldehydes and ketones is via hydration of alkynes. Hydroboration-oxidation of alkynes is an indirect hydration reaction in which an alkyne is treated with borane followed by oxidation with alkaline peroxide to form an enol that rapidly converts into an aldehyde or a ketone. Terminal alkynes form aldehydes, whereas internal alkynes give ketones as the final product.
17.8K

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相关实验视频

Updated: Jun 5, 2025

Achieving Moderate Pressures in Sealed Vessels Using Dry Ice As a Solid CO2 Source
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使用CO替代物进行氨基碳化.

Kamya Rao1, Anku Sharma1, Gajanan K Rathod1

  • 1Department of Medicinal Chemistry, National Institute of Pharmaceutical Education and Research, Sector 67, S. A. S. Nagar, Punjab, 160 062, India. rahuljain@niper.ac.in.

Organic & biomolecular chemistry
|December 12, 2024
PubMed
概括

本综述探讨了用于氨基碳化反应的有毒一氧化碳 (CO) 气体的更安全替代品. 二氧化碳替代品提高了安全性,扩大了基质范围,并简化了胺基键形成过程.

科学领域:

  • 有机化学 有机化学
  • 合成化学 合成化学

背景情况:

  • 氨基化反应对于合成胺是至关重要的.
  • 传统方法使用有毒的一氧化碳 (CO) 气体,这给安全和处理带来了挑战.

研究的目的:

  • 审查最近一氧化碳替代品对氨基碳化的进展.
  • 突出使用CO替代品在安全性和反应范围方面所带来的好处.

主要方法:

  • 该审查审查了各种CO替代物,包括金属碳基,酸,格式和.
  • 讨论了关键的方法,催化系统和机械学的见解.

主要成果:

  • 二氧化碳替代品为气态二氧化碳提供了更安全的替代品.
  • 这些替代物增强了基质范围和氨基化中的操作简单性.

结论:

  • 使用CO替代物显著提高了胺基键形成的安全性和效率.
  • 二氧化碳替代物代表了合成有机化学的多功能进步.

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