在有氧条件下，通过负载在多聚物中的金纳米粒子的非均相催化的串联氧化过程，实现醇和胺的直接酰胺化。

Direct amidation from alcohols and amines through a tandem oxidation process catalyzed by heterogeneous-polymer-incarcerated gold nanoparticles under aerobic conditions.

机构信息

Department of Chemistry, School of Science, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo (113-0033) (Japan), Fax: (+81) 3-5684-0634.

出版信息

Chem Asian J. 2013 Nov;8(11):2614-26. doi: 10.1002/asia.201300733. Epub 2013 Sep 12.

DOI:10.1002/asia.201300733

PMID:24166844

Abstract

We describe herein a highly elegant and suitable synthesis of amide products from alcohols and amines through a tandem oxidation process that uses molecular oxygen as a terminal oxidant. Carbon-black-stabilized polymer-incarcerated gold (PICB-Au) or gold/cobalt (PICB-Au/Co) nanoparticles were employed as an efficient heterogeneous catalyst depending on alcohol reactivity and generated only water as the major co-product of the reaction. A wide scope of substrate applicability was shown with 42 examples. The catalysts could be recovered and reused without loss of activity by using a simple operation.

摘要

我们在此描述了一种通过串联氧化过程，使用分子氧作为末端氧化剂，从醇和胺合成酰胺产物的高度优雅和合适的方法。根据醇的反应性，采用炭黑稳定的聚合物固载金（PICB-Au）或金/钴（PICB-Au/Co）纳米粒子作为高效的多相催化剂，只生成水作为反应的主要副产物。该方法具有广泛的底物适用性，共得到 42 个实例。通过简单的操作，可以回收和重复使用催化剂，而不会损失其活性。

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在有氧条件下，通过负载在多聚物中的金纳米粒子的非均相催化的串联氧化过程，实现醇和胺的直接酰胺化。

Direct amidation from alcohols and amines through a tandem oxidation process catalyzed by heterogeneous-polymer-incarcerated gold nanoparticles under aerobic conditions.

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