Ultrasonic Production of Nano-emulsions for Bioactive Delivery in Drug and Food Applications

Dr Thomas Leong is an early career research fellow in the ARC Dairy Innovation Hub based at the University of Melbourne, Australia. He has expertise in the application of ultrasound for the formation of nanoemulsions and double emulsions. Dr Leong's primary research interests are in the area of ultrasound processing, dairy technology and food engineering, and he has published 23 peer-reviewed journal articles, 4 book chapters and 1 patent on topics in these fields. Professor Sivakumar Manickam (Siva) is a Chemical Engineer specializing Process Engineering of Nanomaterials especially Nanopharmaceuticals at the University of Nottingham, Malaysia campus. His research group focusses on the process development of cavitation based reactors towards technologically important nanomaterials. The group also looks into the development of pharmaceutical nanoemulsions as well as utilizing novel carbon nanomaterials to design biosensors for the early detection of cancer and diabetes. He is also the Associate Dean of Research and Knowledge Exchange, Faculty of Engineering and is the Director of the Centre for Nanotechnology and Advanced Materials. He was the recipient of JSPS fellowship, Japan. He has published ~200 peer reviewed journal and conference papers. He is a Fellow of Royal Society of Chemistry (RSC), Fellow of Higher Education Academy (UK) and member of the Institute of Nanotechnology (IoN). Wu Li is a Ph.D. candidate from the Sonochemistry Research Team located in the School of Chemistry at the University of Melbourne, Australia. During his MSc, he developed an understanding of sonochemistry from his work on the ultrasound-assisted deposition of metals. He recently started his Ph.D. on the topic of ultrasonic emulsification and its application in dairy systems as part of the ARC Dairy Innovation Hub, with a focus on understanding the fundamental aspects of ultrasonic emulsification. Dr Gregory J. O. Martin is a Senior Lecturer in bioprocess engineering at The University of Melbourne's Department of Chemical Engineering. His research in the field of bioprocess engineering aims to develop a fundamental understanding for application in large-scale biotechnological processes. This has included research into the use of ultrasound for the production of double emulsions, application of bacteriophages to wastewater treatment, and investigations into the physicochemistry underlying various dairy processes. Dr Martin has been a Chief Investigator on a number of Australian Research Council Grants including a Discovery Project, two Linkage Projects and the Industry Transformation Research Hub in Dairy Innovation. Dr Martin is an Associate Editor for the Journal of the American Oil Chemists' Society and the head of the Algal Processing Group at The University of Melbourne. He has over 40 publications in leading international journals. Professor Muthupandian Ashokkumar (Ashok) is a physical chemist specializing in sonochemistry. He teaches undergraduate and postgraduate chemistry and is a senior academic staff member at the School of Chemistry, University of Melbourne. He is also one of the associate deans (International) in the Faculty of Science. Ashok is a respected sonochemist who has developed a number of novel techniques to characterize acoustic cavitation bubbles and has made major contributions to the field of applied sonochemistry in the Materials, Food and Dairy industry. His research team has developed a novel ultrasonic processing technology for improving the functional properties of dairy ingredients. His recent research involves the ultrasonic synthesis of functional nano and biomaterials that can be used in energy production, environmental remediation and diagnostic and therapeutic medicine. He is the deputy directo

Introduction.- Selection of Operating Parameters.- Applications of Ultrasonic Emulsification.- Mechanisms of Ultrasonic Emulsification.- Influence of Gas Content.- Ultrasonic Frequency.- Delivery of Anti-Cancer Drugs.- Future Trends and Outlook.- References.