12.11 : 醛和酮与水：形成水合物

Aldehydes and ketones undergo hydration reactions to give hydrates — 1,1-diols, or geminal diols.

The formation of hydrates can be reversed by eliminating water from the diol.

At equilibrium, the amount of hydrate formed decreases with increasing alkyl groups on the carbonyl carbon.

Favorable steric and electronic factors associated with the alkyl groups cause the equilibrium to lie on the side of the carbonyl compounds.

Under neutral conditions, the rate of gem-diol formation is very slow, owing to the poor nucleophilicity of water. The reaction, however, can be accelerated using acid or base catalysts.

In acid catalysis, the hydronium ion protonates the carbonyl oxygen to generate a strongly electrophilic carbonyl carbon. This carbon is then attacked by water, forming an oxonium cation. Finally, deprotonation by another water molecule gives a gem-diol.

Under basic conditions, the stronger hydroxide nucleophile first adds to the carbonyl carbon, generating an alkoxide intermediate. A water molecule then protonates this intermediate to form the gem-diol.

氧基亲核试剂（如水）可以与醛和酮发生加成反应。该反应导致水合物的形成，也称为 1,1-二醇或偕二醇。

水合物的形成是可逆反应。水合物的形成受到羰基上烷基取代基所伴随的空间和电子因素的影响：水合物形成的速率随着连接到羰基碳上的烷基数量的减少而增加。因此，对于更简单的醛，如甲醛，几乎所有醛都会产生相应的水合物。当吸电子基团与羰基碳连接时，非常有利于水合物的形成。

在正常条件下，水与羰基碳的亲核加成非常缓慢。然而，通过酸化或碱化反应介质可以显着提高该速率。酸催化剂使羰基氧质子化，从而增加羰基碳的亲电性。水的亲核加成导致形成氧鎓阳离子，其失去质子形成偕二醇产物。

另一方面，使用碱催化剂，氢氧化物亲核试剂直接攻击羰基碳。该加成反应生成醇盐离子，该离子被水分子质子化，形成加成产物。

Tags

Hydrate Formation 1 1 diols Geminal Diols Nucleophilic Addition Carbonyl Carbon Aldehydes Ketones Water Steric Factors Electronic Factors Acid Catalyst Base Catalyst Oxonium Cation Alkoxide Ion

来自章节 12:

article

Now Playing

12.11 : 醛和酮与水：形成水合物

Aldehydes and Ketones

3.1K Views

article

12.1 : 醛和酮的结构

Aldehydes and Ketones

8.4K Views

article

12.2 : IUPAC 醛类命名法

Aldehydes and Ketones

5.4K Views

article

12.3 : IUPAC 酮的命名法

Aldehydes and Ketones

5.5K Views

article

12.4 : 醛类和酮类的俗名

Aldehydes and Ketones

3.5K Views

article

12.5 : 醛和酮的红外和紫外-可见光谱

Aldehydes and Ketones

5.2K Views

article

12.6 : 醛和酮的 NMR 波谱和质谱

Aldehydes and Ketones

3.7K Views

article

12.7 : 从醇、烯烃和炔烃制备醛和酮

Aldehydes and Ketones

3.5K Views

article

12.8 : 从腈和羧酸制备醛和酮

Aldehydes and Ketones

3.4K Views

article

12.9 : 从羧酸衍生物制备醛和酮

Aldehydes and Ketones

2.5K Views

article

12.10 : 羰基的亲核加成:一般机制

Aldehydes and Ketones

5.1K Views

article

12.12 : 醛类和酮类与醇类:半缩醛形成

Aldehydes and Ketones

5.8K Views

article

12.13 : 醛类和酮类的保护基团:简介

Aldehydes and Ketones

6.6K Views

article

12.14 : 缩醛和硫代缩醛作为醛和酮的保护基团

Aldehydes and Ketones

4.0K Views

article

12.15 : 醛和酮与 HCN:氰醇形成概述

Aldehydes and Ketones

2.6K Views

See More

版权所属 © 2025 MyJoVE 公司版权所有，本公司不涉及任何医疗业务和医疗服务。