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Sonochemical Applications in Plant-Based Extraction and Green Synthesis
Abstract
This chapter explores sonochemical processes in plant-based extraction and green nanomaterial synthesis. Acoustic cavitation—the formation, growth and collapse of microbubbles—enhances mass transfer in extraction and provides controlled conditions for nanomaterial synthesis using plant extracts as reducing agents. These applications demonstrate significant advantages over conventional methods, including reduced processing time, lower solvent consumption, and decreased energy requirements. The chapter details reactor designs, optimization strategies, scale-up considerations, and sustainability assessments, providing comprehensive implementation guidelines for researchers and industry practitioners seeking to develop environmentally sustainable sonochemical processes.
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