Abstract

Abstract: In recent decades, organic synthetic reactions have advanced towards a greener and sustainable reactions by the usage of magnetic nanoparticles (MNPs). Such nanoparticles can be quickly recovered and reused in various organic syntheses. MNPs are a sustainable methodology while encountering environmental and profitable advantage. Due to their properties, MNPs have broad impacts on multiple fields. For instance, their size and magnetic properties have significant implications for various biomedicine, environmental remediation projects, and catalysis. MNPs are an alternative to conventional materials. These are smaller and have a high surface area that allows them to have copious catalytic sites. Amongst various MNPs, iron-based nanoparticles are being profoundly explored in different multicomponent reactions (MCRs). A convergent reaction, which retains most of the significant atoms of the starting components. This investigation targets to equip its readers a brief appertaining to nanoparticles, their processing, and characterization and summarize the evolution in applications of Iron-based MNPs in multicomponent synthetic procedures since 2010.

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