Functional Nanostructures for Induction Heating :.
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Release | : 2000 |
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Release | : 2000 |
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Total Pages | : 0 |
Release | : 2000 |
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This report presents the concept for a multidisciplinary research program aimed at establishing the science base for the design and synthesis of magnetic nanoparticles for hysteresis heating, with potential applications ranging from novel composites processing techniques to alternative cancer treatments. Magnetic materials are used in a wide range of applications and designed for maximum efficiency or minimized hysteresis loss.
Author | : Bruce K. Fink |
Publisher | : |
Total Pages | : 65 |
Release | : 2000-11 |
Genre | : |
ISBN | : 9781423551195 |
This report presents the concept for a multidisciplinary research program aimed at establishing the science base for the design and synthesis of magnetic nanoparticles for hysteresis heating, with potential applications ranging from novel composites processing techniques to alternative cancer treatments. Magnetic materials are used in a wide range of applications and designed for maximum efficiency or minimized hysteresis loss.
Author | : S. Banerjee |
Publisher | : Elsevier |
Total Pages | : 732 |
Release | : 2011-12-12 |
Genre | : Science |
ISBN | : 0123851424 |
Functional materials have assumed a very prominent position in several high-tech areas. Such materials are not being classified on the basis of their origin, nature of bonding or processing techniques but are classified on the basis of the functions they can perform. This is a significant departure from the earlier schemes in which materials were described as metals, alloys, ceramics, polymers, glass materials etc. Several new processing techniques have also evolved in the recent past. Because of the diversity of materials and their functions it has become extremely difficult to obtain information from single source. Functional Materials: Preparation, Processing and Applications provides a comprehensive review of the latest developments. Serves as a ready reference for Chemistry, Physics and Materials Science researchers by covering a wide range of functional materials in one book Aids in the design of new materials by emphasizing structure or microstructure - property correlation Covers the processing of functional materials in detail, which helps in conceptualizing the applications of them
Author | : Sudipta Seal |
Publisher | : Springer Science & Business Media |
Total Pages | : 607 |
Release | : 2010-06-02 |
Genre | : Technology & Engineering |
ISBN | : 0387488057 |
This is the first book about functional nanostructures. Nanocrystalline materials exhibit outstanding properties and represent a new class of structural materials having a wide range of applications. In particular, there is considerable interest in developing nanocrystalline materials to be used as functional materials in aerospace applications, automotive industry, wear applications, etc. Future progress in these high technological applications of nanocrystalline materials depends on development of new methods of their fabrication and understanding of the underlying nano-scale and interface effects causing their unique mechanical properties.
Author | : Hayden Seth Carlton |
Publisher | : |
Total Pages | : 250 |
Release | : 2019 |
Genre | : Ferric oxide |
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Due to their multi-functional nature, iron oxide nanoparticles present themselves in a myriad of scientific disciplines, but perhaps the most interesting property of these nanomaterials can be seen in their immense thermal response under the influence of alternating magnetic fields. Currently popularized as an alternative cancer treatment through localized hyperthermia, iron oxide nanoparticle induction heating presents an interesting physical phenomenon that distinguishes itself from macroscopic induction heating. Understanding how a single spherical particle behaves is relatively simple and remains well documented; however, magnetic interactions of a single particle often extend over many length scales, affecting numerous neighboring particles in the local vicinity. Inter-particle interactions play a significant role in the collective heating response of magnetic nanoparticle colloids, and their effect on heating efficacy remain inadequately addressed and widely debated amongst the scientific community. Submitted in partial completion of the requirements for a Master of Science in Mechanical Engineering, the thesis herein describes an investigation into particle characteristics that govern the collective heating response and nanoparticle clustering, such as capping chemistry and environmental factors. Unique characterization techniques, such as small angle neutron scattering were utilized to observe the extent of these interactions for different types of structurally different nanoparticles, as well as how each of the parameters affected the induction heating response. In situ measurements with small angle neutron scattering provided a glimpse of the geometry and size extent of the large-scale nanoparticle structures formed during induction heating; analysis of their dimension determined the spherical clusters extended well into the micron-range. Calorimetric measurements gathered under the influence of an alternating magnetic field exhibited the nanoparticles' dependence on mean inter-particle spacing and the role inter-particle interactions have on the efficiency of the nanoparticles. Analysis in a saline environment showcased the effect of local electrolytes on the stability and thermal performance of surfactant-capped iron oxide nanoparticles. With the accumulation of multiple types of characterization data mainly examining the colloidal behavior of the nanoparticles, this study attempts to understand the deep-rooted dependence of nanoparticle induction heating efficiency on inter-particle behavior.
Author | : Maria Angela Castriciano |
Publisher | : MDPI |
Total Pages | : 300 |
Release | : 2020-12-04 |
Genre | : Science |
ISBN | : 3039432168 |
Nanoparticles and nanostructured materials represent an active area of research and impact in many application fields. The recent progress obtained in the synthesis of nanomaterials, and the fundamental understanding of their properties, has driven significant advances for their technological applications. The Special Issue “Functional Nanostructures for Sensors, Optoelectronic Devices and Drug Delivery” aims to provide an overview of the current research activities in the field of nanostructured materials with a particular emphasis on their potential applications for sensors, optoelectronic devices and biomedical systems. The Special Issue includes submission of original research articles and comprehensive reviews that demonstrated or summarized significant advances in the above-mentioned research fields. The Special Issue is made up of fifteen original research articles and three comprehensive reviews covering various topics of nanostructured materials and relative characterization from fundamental research to technological applications. More than 100 scientists from universities and research institutions lent their expertize and shared their research activities to ensure the success of this Special Issue.
Author | : Brian David Sosnowchik |
Publisher | : |
Total Pages | : 488 |
Release | : 2008 |
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Author | : Thomas Tsakalakos |
Publisher | : Springer Science & Business Media |
Total Pages | : 694 |
Release | : 2012-12-06 |
Genre | : Technology & Engineering |
ISBN | : 9400710194 |
The Advanced Study Institute on Synthesis, Functional Properties and Applications of Nanostructures, held at the Knossos Royal Village, Heraklion, Crete, Greece, July 26, 2002 - August 4, 2002, successfully reviewed the state-of-the-art of nanostructures and nanotechnology. It was concluded that Nanotechnology is widely agreed to be the research focus that will lead to the next generation of breakthroughs in science and engineering. There are three cornerstones to the expectation that Nanotechnology will yield revolutionary advances in understanding and application: • Breakthroughs in properties that arise from materials fabricated from the nanoscale. • Synergistic behavior that arise from the combination of disparate types of materials (soft vs. hard, organic vs. inorganic, chemical vs. biological vs. solid state) at the nanoscale. • Exploitation of natural (e.g. chemical and biological) assembly mechanisms that can accomplish structural control at the nanoscale. It is expected that this will lead to paradigms for assembling bio-inspired functional systems that accomplish desirable properties that are either unavailable or prohibitively expensive using top-down approaches.
Author | : Tianjiao Ji |
Publisher | : Frontiers Media SA |
Total Pages | : 106 |
Release | : 2021-02-26 |
Genre | : Science |
ISBN | : 2889665208 |