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基本説明
Addresses key topics in materials science, medical applications, nanotechnology, metallurgy, food science, wastewater treatment, anaerobic digestion, pollutants degradation, polymers, reactor design, synthetic organic chemistry, and combined ultrasound-microwave technologies.
Full Description
Ultrasonic irradiation and the associated sonochemical and sonophysical effects are complementary techniques for driving more efficient chemical reactions and yields. Sonochemistry—the chemical effects and applications of ultrasonic waves—and sustainable (green) chemistry both aim to use less hazardous chemicals and solvents, reduce energy consumption, and increase product selectivity.
A comprehensive collection of knowledge, Handbook on Applications of Ultrasound covers the most relevant aspects linked to and linking green chemistry practices to environmental sustainability through the uses and applications of ultrasound-mediated and ultrasound-assisted biological, biochemical, chemical, and physical processes.
Chapters are presented in the areas of:
Medical applications
Drug and gene delivery
Nanotechnology
Food technology
Synthetic applications and organic chemistry
Anaerobic digestion
Environmental contaminants degradation
Polymer chemistry
Industrial syntheses and processes
Reactor design
Electrochemical systems
Combined ultrasound-microwave technologies
While the concepts of sonochemistry have been known for more than 80 years, in-depth understanding of this phenomenon continues to evolve. Through a review of the current status of chemical and physical science and engineering in developing more environmentally friendly and less toxic synthetic processes, this book highlights many existing applications and the enormous potential of ultrasound technology to upgrade present industrial, agricultural, and environmental processes.
Contents
Foreword, Preface, Acknowledgments, Editors, Contributors, Contributors, Chapter 2: Introduction to Sonochemistry: : A Historical and Conceptual Overview, Chapter 3: Aspects of Ultrasound and Materials Science, Chapter 4: Ultrasound-Assisted Particle Engineering, Chapter 5: Applications of Sonochemistry in Pharmaceutical Sciences, Chapter 6: Ultrasound-Assisted Synthesis of Nanomaterials, Chapter 7: Ultrasound for Fruit and Vegetable Quality Evaluation, Chapter 8: Ultrasound in Food Technology, Chapter 9: Use of Ultrasound in Coordination and Organometallic Chemistry, Chapter 10: Ultrasound in Synthetic Applications and Organic Chemistry, Chapter 11: Ultrasound in Synthetic Applications and Organic Chemistry, Chapter 12: Ultrasound Applications in Synthetic Organic Chemistry, Chapter 13: Ultrasound-Assisted Anaerobic Digestion of Sludge, Chapter 14: Ultrasound Application in Analyses of Organic Pollutants in Environment, Chapter 15: Applications of Ultrasound in Water and Wastewater Treatment, Chapter 16: Ultrasound and Sonochemistry in the Treatment of Contaminated Soils by Persistent Organic Pollutants, Chapter 17: Role of Heterogeneous Catalysis in the Sonocatalytic Degradation of Organic Pollutants in Wastewater, Chapter 18: Degradation of Organic Pollutants Using Ultrasound, Chapter 19: Applications of Ultrasound to Polymer Synthesis, Chapter 20: Mechanistic Aspects of Ultrasound-Enhanced Physical and Chemical Processes, Chapter 21: Ultrasound-Assisted Industrial Synthesis and Processes, Chapter 22: Development of Sonochemical Reactor, Chapter 23: Ultrasound for Better Reactor Design: : How Chemical Engineering Tools Can Help Sonoreactor Characterization and Scale-Up, Chapter 24: Sonoelectrochemistry: : From Theory to Applications, Chapter 25: Combined Ultrasound-Microwave Technologies, Chapter 26: Integrating Ultrasound with Other Green Technologies: : Toward Sustainable Chemistry
