Biomedical Applications of Magnetic Particles discusses fundamental magnetic nanoparticle physics and chemistry and explores important biomedical applications and future challenges.
The first section presents the fundamentals of the field by explaining the theory of magnetism, describing techniques to synthesize magnetic particles, detailing methods to characterize magnetic particles, and quantitatively describing the applied magnetic forces, torques, and the resultant particle motions. The second section describes the wide range of biomedical applications, including chemical sensors, cellular actuators, drug delivery, magnetic hyperthermia, magnetic resonance imaging contrast enhancement, and toxicity.
Additional key features include:
- Covers both introduction to physics and characterization of magnetic nanoparticles and the state of the art in biomedical applications
- Authoritative reference for scientists and engineers for all new or old to the field
- Describes how the size of magnetic nanoparticles affects their magnetic properties, colloidal properties, and biological properties.
Written by a team of internationally respected experts, this book provides an up-to-date authoritative reference for scientists and engineers.
About the Author:
Jeffrey N. Anker is a Wallace R. Roy Distinguished Professor of Chemistry
and BioEngineering at Clemson University. He earned his BS degree in
applied physics at Yale University in 1998. He earned his doctorate at The
University of Michigan in 2005, working for Professor Raoul Kopelman
to develop magnetically modulated optical nanoprobes (MagMOONs) to
measure chemical concentrations and mechanical properties of solutions. For
this work, he was awarded a grand prize at the 2002 National Inventor's
Hall of Fame Collegiate Inventor's Competition. From 2005 to 2008,
Dr. Anker worked as an NIH National Science Research Award (NSRA)
postdoctoral research fellow at Northwestern University under the guidance of Professor
Richard Van Duyne. His postdoctoral research focused on developing real-time high-resolution
plasmonic nanosensors. He joined the Clemson Chemistry Department in August 2008. Current
research focuses on imaging and spectroscopy using magnetic, plasmonic, x-ray excited microand
nanosensors, implantable sensors, orthopedic devices, and medical imaging. Along with
Thompson Mefford, he founded the Frontiers in BioMagnetic Particles Meeting Series. Awards
include: NSF CAREER award (2013); Clemson Faculty Collaboration Award (2014); Clemson
University School of Health Research (CUSHR), and Greenville Health System Embedded
Faculty Fellow (2018); University Research, Scholarship, and Artistic Achievement Award
(USRAAA) (2018); and senior member of the National Academy of Inventors (2019).
O. Thompson Mefford is an Associate Professor in the Department of
Materials Science Engineering where he holds a David and Mary Ann Bishop
Dean's Professorship, along with an additional appointment in the Department
of Bioengineering at Clemson University. He earned his BS degree
in Polymer and Textile Chemistry at Clemson in 2003 and a PhD in
Macromolecular Science and Engineering from Virginia Tech in 2007,
where he worked on the development of treatments for retinal detachment
using hydrophobic ferrofluids. Before returning back to Clemson, Dr. Mefford
developed methods for the fabrication and functionalization of microfluidic
devices as a Post-doctoral Researcher for The Ohio State University Department of Chemistry.
Dr. Mefford joined the faculty of the Department of Materials Science and Engineering at Clemson in
the Fall of 2008. His research focuses on developing stable, polymer-iron oxide nanoparticle
complexes and composites for biomedical applications. These applications include developing
materials for magnetically modulated energy delivery, MRI contrast agents, and drug delivery
systems. He currently organizes the Frontiers in Magnetic Particles Conference (www.
magneticnanoparticle.com). In his free time, Dr. Mefford is found running, cycling, sailing,
backpacking, and home brewing.
