Recent Advances in Heterogeneously Catalyzed Acceptorless Dehydrogenation of Alcohols to Carbonyl Derivatives and N-heterocyclic Compounds

Current Indian Science Pub Date : 2024-07-22 DOI:10.2174/012210299x318258240710090746

Krisangi Bordoloi, Jyotishma Baruah, Bibekananda Gogoi, Pankaj Das

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Abstract

Oxidation of alcohols in an oxidant-free condition, commonly known as the acceptorless dehydrogenation (AD) reaction, has recently emerged as one of the widely used processes in synthetic organic chemistry. Alcohol acts as an excellent chemical precursor that produces a variety of dehydrogenated value-added products such as carbonyls, acids, acetals, and several coupling products, followed by the concomitant evolution of molecular hydrogen gas. AD reaction of alcohol, therefore, can be considered as a vital reaction for the hydrogen economy using alcohols as a liquid hydrogen carrier. Over the past decade, the growing importance of AD reactions has set the way for the continuous development of various homogeneous and heterogeneous catalytic systems. With the advantage of reusability and recyclability, heterogeneous catalysts have now become more promising and significant in the catalytic domain. This review aims to make an overview of the transition metal-based heterogeneous catalytic system of acceptorless alcohol dehydrogenation reaction reported till December, 2023.

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异构催化无受体醇类脱氢生成羰基衍生物和 N-杂环化合物的最新进展

醇在无氧化剂条件下的氧化反应，通常称为无受体脱氢反应（AD），最近已成为合成有机化学中广泛使用的工艺之一。酒精是一种极好的化学前体，可产生多种脱氢增值产品，如羰基、酸、乙醛和多种偶联产物，并随之产生分子氢气。因此，酒精的 AD 反应可被视为利用酒精作为液态氢载体实现氢经济的重要反应。在过去的十年中，AD 反应的重要性与日俱增，为各种均相和异相催化系统的不断发展开辟了道路。由于具有可重复使用和可回收的优点，异相催化剂目前在催化领域变得更有前景和意义。本综述旨在概述截至 2023 年 12 月所报道的无受体醇脱氢反应的过渡金属基异相催化体系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Current Indian Science

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