Affiliation:
1. College of Grain Engineering, Henan Industry and Trade Vocational College; Zhengzhou Henan, 451191, China
2. Young Researchers and Elite Club, Tehran Branch, Islamic Azad University, Tehran, Iran
Abstract
In chemistry, thiazoles and their derivatives constitute a significant class of
biologically active molecules that are thought to be the fundamental building blocks of numerous
other biologically active compounds. Many synthetic pharmaceuticals, including fungicides, dyes,
antimicrobials, and anticonvulsants, are made using thiazoles and their derivatives as an
intermediary. Thus, one of the main areas of organic synthesis research is the presentation of
effective and environmentally acceptable catalytic methods for the synthesis of thiazole
derivatives. Over the past ten years, organic synthesis in chemistry has been completely
transformed by the use of magnetic nanocomposites as catalysts. Magnetic nanoparticles are very
stable and easily manipulated on the surface, which can result in the creation of an efficient
catalyst. The main feature of magnetic nanocatalysts is their ability to be easily separated from the
reaction mixture using only an external magnet. In recent years, several magnetic nanocatalysts
have been reported to produce various thiazole compounds. We will look at these methods and
talk about the characteristics of these catalytic systems in this post. This review will be helpful for
synthetic chemists who are interested in magnetic nanocatalysts and working in the field of
thiazole synthesis.
Publisher
Bentham Science Publishers Ltd.