Photocatalytic Multi-Component Reactions: An Emerging Avenue

G. Anilkumar, Sreekumar Ariya, Mohan Neetha
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Abstract

In recent years, photocatalytic multi-component reactions have emerged as a cutting-edge innovation in the field of organic synthesis. These reactions allow the simultaneous transformation of multiple reactants, which not only saves time and resources but also provides access to a diverse range of complex molecules. The use of photocatalysts in these reactions provides several advantages, including mild reaction conditions, high selectivity, and high functional group tolerance. Moreover, the integration of renewable energy sources such as visible light as a driving force for these reactions further adds to their sustainability. This innovation has opened up new avenues for the synthesis of complex molecules and holds great promise for the development of sustainable and efficient chemical processes. This review gives a broad understanding of photocatalyzed multi-component reaction protocols developed with wide applications in synthetic organic chemistry. These green, efficient, and straightforward reactions utilize recyclable photocatalyst, solvent-free or catalyst-free conditions for the synthesis of compounds with biological significance in a cost-effective fashion. They are easily purified due to the minimum or no by-product formation. The review is divided into sections based on the type of photocatalysts involved and covers literature up to 2022.
光催化多组分反应:一个新兴的途径
近年来,光催化多组分反应成为有机合成领域的前沿创新。这些反应允许多种反应物同时转化,这不仅节省了时间和资源,而且还提供了获取各种复杂分子的途径。在这些反应中使用光催化剂具有几个优点,包括温和的反应条件、高选择性和高官能团耐受性。此外,整合可再生能源,如可见光,作为这些反应的驱动力,进一步增加了它们的可持续性。这一创新为复杂分子的合成开辟了新的途径,并为可持续和高效的化学过程的发展带来了巨大的希望。本文综述了光催化多组分反应方案在合成有机化学中的广泛应用。这些绿色、高效、直接的反应利用可回收的光催化剂、无溶剂或无催化剂的条件,以经济有效的方式合成具有生物意义的化合物。由于很少或没有副产品的形成,它们很容易纯化。该综述根据所涉及的光催化剂类型分为几个部分,涵盖截至2022年的文献。
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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