Cavitation: A Novel Energy-Efficient Technique for the Generation of Nanomaterials

Cavitation: A Novel Energy-Efficient Technique for the Generation of Nanomaterials

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Overview

As nanomaterials and their end products occupy the pinnacle position of consumer markets, it becomes vital to analyze their generation processes. One of the green chemistry principles underlines the need for unusual energy sources to generate them. Utilizing the extreme energy from the collapse of cavitation bubbles, generated by either ultrasound or hydrodynamic forces, for the generation of nanomaterials is a merit to consider in this "Green Chemical Processing Era."

A wide range of nanomaterials have been developed in the past decade using cavitation or coupling cavitation with other techniques such as microwave, photochemistry, and electrochemistry, resulting in nanomaterials with unique morphologies, reduced size, narrow size distribution, and innumerous advantages. While a few currently available books deal with the fundamental aspects of cavitation and sonochemistry, this book is devoted specifically to the technologically important nanomaterials obtained by cavitation.

Product Details

ISBN-13: 9789814411547
Publisher: Jenny Stanford Publishing
Publication date: 08/11/2014
Pages: 454
Product dimensions: 6.10(w) x 9.10(h) x 1.10(d)

About the Author

Sivakumar Manickam is a professor at the Department of Chemical and Environmental Engineering, University of Nottingham, Malaysia Campus. He specializes in process engineering of nanomaterials, especially nanopharmaceuticals, and has worked in the area of ultrasound and hydrodynamic cavitation since 1997. He also heads the Manufacturing and Industrial Processes Research Division and is the coordinator of the Centre for Nanotechnology and Advanced Materials. Prof. Manickam is also the recipient of the JSPS fellowship, Japan; the Fellow of Higher Education Academy, UK; and member of the Institute of Nanotechnology (IoN), UK. His research group focuses on the process development of cavitation-based reactors toward technologically important nanomaterials.

Muthupandian Ashokkumar is a professor at the School of Chemistry, University of Melbourne, Australia. He is a physical chemist who specializes in sonochemistry. He has developed a number of novel techniques to characterize acoustic cavitation bubbles and has made major contributions of applied sonochemistry to the food and dairy industry. Prof. Ashokkumar’s recent research involves the ultrasonic synthesis of functional nano- and biomaterials, including protein microspheres that can be used in diagnostic and therapeutic medicine. He is a Fellow of the Royal Australian Chemical Institute and recipient of the Grimwade Prize in Industrial Chemistry.

Table of Contents

Development of Multifunctional Nanomaterials by Cavitation. Generation of Size-, Structure-, and Shape-Controlled Metal Nanoparticles Using Cavitation. Sonochemical Synthesis of Noble Mono- and Bimetallic Nanoparticles for Catalytic Applications. Ultrasound-Assisted Synthesis of Metal Oxide Nanomaterials. Synthesis of Nanomaterials Using Hydrodynamic Cavitation. Sonoelectrochemical Synthesis of Nanomaterials. Preparation of Nanomaterials Under Combined Ultrasound/Microwave Irradiation. Ultrasound-Assisted Preparation of Nano- and Micro-Polymeric Materials for the Encapsulation of Bioactive Agents. Innovative Inorganic Nanoparticles with Antimicrobial Properties Attached to Textiles by Sonochemistry. Ultrasonic Processing for Synthesis of Nanocomposite via in situ Emulsion Polymerization and Their Applications. Controlled Sonochemical Fabrication of Mesoporous Surfaces and Metal Sponges. Numerical Simulations of Nucleation and Aggregation of BaTiO3 Nanocrystals Under Ultrasound. Ultrasonics and Sonochemistry: Some Issues and Future Perspectives.

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