Theoretical and Experimental Sonochemistry Involving Inorganic Systems

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Despite the fact that chemical applications of ultrasound are now widely acknowledged, a detailed presentation of inorganic systems covering nano-particles, catalysis, aqueous chemistry of metallic solutions and their redox characteristics, both from a theoretical and experimental perspective has eluded researchers of this field.
Theoretical and Experimental Sonochemistry Involving Inorganic Systems fills this gap and presents a concise and thorough review of this fascinating area of Sonochemistry in a single volume.

List of contents

1. Fundamentals of Acoustic Cavitation and Sonochemistry.- 2. Theory of Cavitation and Design Aspects of Cavitational Reactors.- 3. Cavitation Generation and Usage Without Ultrasound: Hydrodynamic Cavitation.- 4. Sonoelectrochemical Synthesis of Materials.- 5. Sonochemical Synthesis of Metal Nanoparticles.- 6. Sonochemical Preparation of Monometallic, Bimetallic and Metal-Loaded Semiconductor Nanoparticles.- 7. Acoustic and Hydrodynamic Cavitations for Nano CaCO3 Synthesis.- 8. Sonochemical Synthesis of Oxides and Sulfides.- 9. Aqueous Inorganic Chemistry.- 10. Sonochemical Study of Multivalent Cations (Fe, Cr & Mn).- 11. Sonochemical Degradation of Phenol in the Presence of Inorganic Catalytic Materials.- 12. Sonophotocatalytic Degradation of Amines in Water.- 13. Sonoluminescence of Inorganic Ions in Aqueous Solutions.- 14. The Role of Salts in Acoustic Cavitation and the Use of Inorganic Complexes as Cavitation Probes.- 15. Introductory Experiments of Sonochemistry and Sonoluminescence.

Summary

Despite the fact that chemical applications of ultrasound are now widely acknowledged, a detailed presentation of inorganic systems covering nano-particles, catalysis, aqueous chemistry of metallic solutions and their redox characteristics, both from a theoretical and experimental perspective has eluded researchers of this field.
Theoretical and Experimental Sonochemistry Involving Inorganic Systems fills this gap and presents a concise and thorough review of this fascinating area of Sonochemistry in a single volume.

Additional text

From the reviews:
"Theoretical and Experimental Sonochemistry Involving Inorganic Systems, edited by Prof. Pankaj, Agra, India and Prof. M. Ashokkumar, Melbourne, Australia and published by Springer, Dordrecht, Heidelberg, London, New York, consists of 15 chapters, which have been authored by renowned and active workers of five countries.
Theoretical and Experimental Sonochemistry Involving Inorganic Systems is a comprehensive and exhaustive description of sonochemical studies of aqueous systems starting from its origin to the present day studies including the synthesis of nano materials, degradation of pollutants, standardization of analytical techniques, behaviour of mono and multivalent metallic cations, green waste water management and the details of sonoluminescence in a single volume. The effects of ultrasound in combination with other techniques such as microwave, photocatalysis and catalysis are indeed attention-grabbing.
Interestingly, few chapters in the latter half of the book, including the last chapter, are aimed at
introducing this relatively new but a very compatible source of energy, at the University level teaching and research which is yet to be exploited and harnessed in almost all fields of chemistry.
[...] I do hope and wish that this book would attract the attention of students and researchers alike and benefit the world of chemistry and chemical technology in more than one way” (Dr. G.C. Saxena, Indian Council of Chemists, Agra, India, 2010).

Report

From the reviews:
"Theoretical and Experimental Sonochemistry Involving Inorganic Systems, edited by Prof. Pankaj, Agra, India and Prof. M. Ashokkumar, Melbourne, Australia and published by Springer, Dordrecht, Heidelberg, London, New York, consists of 15 chapters, which have been authored by renowned and active workers of five countries.
Theoretical and Experimental Sonochemistry Involving Inorganic Systems is a comprehensive and exhaustive description of sonochemical studies of aqueous systems starting from its origin to the present day studies including the synthesis of nano materials, degradation of pollutants, standardization of analytical techniques, behaviour of mono and multivalent metallic cations, green waste water management and the details of sonoluminescence in a single volume. The effects of ultrasound in combination with other techniques such as microwave, photocatalysis and catalysis are indeed attention-grabbing.
Interestingly, few chapters in the latter half of the book, including the last chapter, are aimed at
introducing this relatively new but a very compatible source of energy, at the University level teaching and research which is yet to be exploited and harnessed in almost all fields of chemistry.
[...] I do hope and wish that this book would attract the attention of students and researchers alike and benefit the world of chemistry and chemical technology in more than one way" (Dr. G.C. Saxena, Indian Council of Chemists, Agra, India, 2010).