This book highlights the current state of the art in magnetophoretic circuits and their use in the emerging field of single-cell analysis. This interdisciplinary topic involves many fields of science including cellular biology, drug screening, cancer research, personalized medicine, microfabrication, biomedical microdevices, and lab-on-a-chip. This book not only provides the required fundamental knowledge and background needed in magnetics and the circuit theory but also describes the idea of magnetophoretic circuits as well as the cutting-edge developed technologies. It provides a sufficient…mehr
This book highlights the current state of the art in magnetophoretic circuits and their use in the emerging field of single-cell analysis. This interdisciplinary topic involves many fields of science including cellular biology, drug screening, cancer research, personalized medicine, microfabrication, biomedical microdevices, and lab-on-a-chip. This book not only provides the required fundamental knowledge and background needed in magnetics and the circuit theory but also describes the idea of magnetophoretic circuits as well as the cutting-edge developed technologies. It provides a sufficient background in i) the required theory in magnetics, ii) SCAs in general, iii) the circuit theory, iv) the developed idea of the magnetophoretic circuits, v) the fabrication process and magnetic cell labeling techniques, vi) the magnetophoretic-based SCA tools, and vii) the bio-applications. Methods for performing simulations as well as designing, fabricating, and running experiments are explained.Author of the book is one of the inventors of some of the ideas and the author/co-author of some of the related articles in high-impact journals. The book appeals to the readers interested in clinical applications as well as the ones interested in its technical aspects. It is beneficial for researchers interested in the field of single-cell analysis from various disciplines including biomedical engineering, mechanical engineering, electrical engineering, materials science, and cellular biology.
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Autorenporträt
Roozbeh Abedini-Nassab is an Assistant Professor of Mechanical Engineering in Tarbiat Modares University. After earning his Bachelors and Master's degrees in Electrical Engineering, Roozbeh Abedini-Nassab earned his Ph.D. in Mechanical Engineering from Duke University, and worked as a Postdoctoral Associate in the Biomedical Engineering Department at Cornell University. His research interest includes Biomechanics, BioMEMS, Biomedical Microdevices, Magnetic, Microfluidics, Lab-on-a-Chip systems, and Single-Cell analysis. He has published his research outcomes in high-impact journals, including Nature Communications, Lab on a Chip, Advanced Materials, Advanced Functional Materials, and so on. He has also filed US patent applications. Moreover, he has won several international awards for his presentations (e.g., best oral presentation award, best poster award, etc.), published articles (e.g., Editor's Choice award), and research activities (e.g., Top Researcher Award).
Inhaltsangabe
Introduction.- Theory.- Experimental Methods.- Particle Transport and Storage with Magnetophoretic Circuits.- Particle Switching with Magnetic Transistors.- Integrated Magnetomicrofluidics Circuits.- Biological Applications.- Final Words and Future Directions.
Introduction.- Theory.- Experimental Methods.- Particle Transport and Storage with Magnetophoretic Circuits.- Particle Switching with Magnetic Transistors.- Integrated Magnetomicrofluidics Circuits.- Biological Applications.- Final Words and Future Directions.
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