L-Proline Catalyzed Organic Reactions via Microwave-Activation

In the past few years, using microwave power to heat and wield chemical reactions has become a gradually more popular subject in the scientific community. Microwave-supported organic synthesis is confirmed to be involved in the rapid synthesis of novel compounds with selectivity and enhanced biological activities. Microwave flash heating for chemical synthesis is a spectacular reduction in reaction times, high yield and purity of the products, etc. A catalysis field wherein small organic molecules like L-Proline is an efficiently and selectively catalyze organic transformations. Microwave-assisted L-Proline catalyzed reactions are valuable tools for the making of different acyclic, heterocycles, and carbocyclic scaffolds that signify the main framework of most of the bio-active compounds. The areas of synthetic organic chemistry, microwave irradiation is speedily discarded the conventional heating methods in the world of multicomponent as well as step-wise synthetic chemistry. In this review, we discuss only L-Proline Catalyzed Organic Reactions under microwave activation using modern organic transformations including condensation, addition, asymmetric, multi-components, and other modular reactions.