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Non-conventional synthetic methods may provide new and green methods for the preparation of bioactive heterocycles. These methods, such as microwave and ultrasound assisted synthesis, biocatalysis, photochemistry and electrosynthesis use less energy and may produce less waste to get the desired products when compared to traditional methods. This book explores the use of these methods when synthesizing various biologically relevant heterocyclic scaffolds. THE SERIES: GREEN BIOACTIVE HETEROCYCLES Heterocycles are a widely utilized group of molecules as they often contain bioactivity that is useful in drug development, agriculture, and other applications. However, their synthesis remains challenging with diffi cult to control functional groups. With a greater focus on sustainable synthesis practices, there is a need to develop greener synthetic methods for the synthesis of structurally diverse bioactive heterocyclic scaffolds. This series aims to do so, by collecting developments into common themes.
Non-metal catalysis may provide new and green methods for obtaining bioactive heterocycles. Many catalysts contain metals, which can be toxic, energy intensive to remove, and require mining of the source materials. By utilizing metal-free catalysts we avoid these issues. This book explores the use of non-metal catalysts when synthesizing various heterocyclic structures with bioactivity.
Over the years, applications of various non-conventional solvents diversified in various fields such as organic synthesis, natural products, drug design, pharmaceuticals, dyes and agrochemical industries. This book consists of nine chapters, which present recent advances and applications of various non-conventional solvents in organic transformations, drug design and bioremediation. Environmental impacts of non-conventional solvents and comparison between traditional solvents and non-conventional solvents are also discussed in this book.
The solvent-free approach provides green and alternative synthetic methods for obtaining diverse bioactive heterocycles. The solvent is frequently the primary component of synthetic protocol and contributes to significant waste. Additionally, its removal processes are energy intensive and substantial. This book explores different solvent-free procedures for efficiently synthesising heterocyclic analogues of immense biological importance and other applications.
Over the years, the uses and applications of various non-conventional solvents such as ionic liquids, deep eutectic solvents, crown ethers, fluorinated solvents, glycols, glycerol etc diversified in various fields. This book consists of nine chapters, which present recent advances and outlook on various non-conventional solvents in organic transformations. Comparison between traditional solvents and non-conventional solvents are also highlighted in this book.
Magnetic nanocatalysts are an important tool for greener catalytic processes due to the ease of their removal from a reaction medium. This book explores different magnetic nanocatalysts, their use in industrial applications, and their recyclability. Topics covered include wastewater treatment, drug delivery, and industrial catalysis.
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Magnetic nanocatalysts are an important tool for greener catalytic processes due to the ease of their removal from a reaction medium. This book explores different magnetic nanocatalysts, their use in synthesis, and their recyclability. Topics covered include magnetic nanocatalysts for S-S bond formation, N-hetercycle formation, C-heteroatom bond formation, silica-supported catalysts, multicomponent reactions, and their recyclability.
Heterogeneous catalysts are an important tool for greener catalytic processes due to the ease of their removal from the reaction mixture and feasibility of reuse. When these catalysts can operate in the ideal green solvent, water, they improve the sustainability of the process. This book explores aqueous mediated heterogeneous catalysts and their use in synthesis. Topics covered include nanomaterials, quantum dots, metal organic frameworks, and their use as catalysts.