12.24 : 醛和酮的反应：拜尔-维利格氧化

Baeyer–Villiger oxidation uses peracid and an acid catalyst to convert aldehydes to carboxylic acids and ketones to esters via the insertion of an oxygen atom next to the carbonyl carbon.

The substrate's carbonyl oxygen is first protonated, which makes the carbonyl carbon more electrophilic.

A nucleophilic attack by the terminal oxygen of the peracid, followed by the loss of a proton, produces a tetrahedral intermediate.

Protonating the carboxylate facilitates a concerted intramolecular process wherein reformation of the carbonyl bond, migration of a group from carbon to oxygen, and cleavage of the weak O–O bond take place, releasing the final product.

With unsymmetrical ketones, a question that arises is which group undergoes migration? With two possible outcomes, one of the products predominates.

The reaction result depends on the migratory aptitude of different groups; thus, Baeyer–Villiger oxidations are regioselective. Also, note that the reaction retains the stereochemistry at the migrating center.

For aromatic substrates, an electron-donating group accelerates the migration process, while an electron-withdrawing group retards it.

拜尔-维利格氧化将醛转化为羧酸，将酮转化为酯。该反应使用过氧酸或过酸并且通常由酸催化。该反应以其先驱阿道夫·冯·拜尔（Adolf von Baeyer）和维克多·维利格（Victor Villiger）的名字命名。该反应是通过多种过酸实现的，例如m氯过苯甲酸(mCPBA）、过苯甲酸(C₆H₅COOOH)、过乙酸(CH₃COOOH)、过氧化氢(H₂O₂) 和叔丁基过氧化氢(t-BuOOH)。

羰基中心通过羰基氧的质子化而被激活。然后过酸穿过 C=O 键加成，得到称为 Criegee 中间体的四面体中间体。在随后的协同分子内重排过程中，羰基被恢复，基团从碳迁移到氧，弱过氧化物键断裂，产生酸（如果底物是醛）或酯（如果底物是酮））。

不同类群的迁徙能力遵循-–H > –CR₃ > –CHR₂ ≈ –Ph > –CRH₂ > –⁠CH₃ 的顺序。这使得拜尔-维利格氧化具有区域选择性。此外，该反应保留了不对称底物迁移中心的立体化学。涉及环酮的反应产生内酯。

Tags

Baeyer Villiger Oxidation Aldehydes Ketones Carboxylic Acids Esters Peracids Criegee Intermediate Migratory Aptitude Regioselectivity Stereochemistry Lactones

来自章节 12:

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12.1 : 醛和酮的结构

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12.2 : IUPAC 醛类命名法

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