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Full Description
Magnetically responsive soft nanoparticle systems are colloidal model systems where particle-particle interactions can be tuned through external magnetic fields. Macroscopic behaviour of soft nanosystems, depending on the size of magnetic nanoparticles degree of integration in the carrier fluid, varies from a magnetizable fluid continuum to a suspension of structuring magnetic particles.
This book covers the most recent results in the field of magnetically responsive colloidal nanosystems, with special emphasis on engineering and biocompatible ferrofluids (bio-ferrofluids). It demonstrates the progress in remote controlled nanosystems, in particular in the field of magnetically controllable nanofluids.
Contents
Iron Oxide Nanoparticles for Magnetic Particle Imaging
Thermodynamic Structure Formation in Colloidal Dispersions of Single-domain Magnetic Nanoparticles
Iron Oxide Nanoparticle Systems in Biorelevant Media - The Key Role of Nanoparticle Coating
Synthesis, Characterization and Evaluation of Magnetic Nanomaterials in the Recovery of Heavy Metal/Radioactive Soil and Wastewater Contaminants
Magnetism at the Nanoscale: Implications in Engineering and Biomedical Applications
Structuring Processes in Magnetic Nanoparticle Systems: Investigations by Small-angle Techniques
Ferromagnetic Ferrofluids: Ferromagnetic Ordering of Colloidal Magnetic Nanoplatelets
Magnetic Nano-systems: From Composites to Hybrid Materials
Ferronematics: Composition, Structure and Properties
Magnetic Field-responsive Colloidal Assemblies
Dynamics of Single- and Multi-core Magnetic Nanoparticles in Viscous Media
Magnetic Labelling of Cells and Microorganisms - Principles and Applications
Soft Magnetoresponsive Actuators - Engineering and Biomedical Applications
Optical Deformation and Manipulation of Ferrofluids: Principles, Properties and Applications
Magnetic Density Separation
Dynamic Sealing with Magnetisable Fluids - Recent Progress and Applications
Nano-Micro Composite Magnetorheological Fluids: From Magnetorheology to Flow Control
