Synthesis And Magnetic Properties Of Carbon Coated Iron Iron Oxide Core Shell Nanoparticles PDF Download

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Synthesis and Magnetic Properties of Carbon-Coated Iron-Iron Oxide Core/Shell Nanoparticles

Synthesis and Magnetic Properties of Carbon-Coated Iron-Iron Oxide Core/Shell Nanoparticles
Author: Franco Iglesias
Publisher:
Total Pages: 0
Release: 2022
Genre: Carbon-coated iron
ISBN:
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It cannot be overstated that nanoparticles have earned their reputation for being famously practical, from simple artisan pottery to biomedical applications. Since Faraday's famous observations into thin gold films during the 1800's, nanoparticle research has shown the world that experimentation into synthesizing nanoparticles, and more interestingly core/shell nanoparticles, will prove worthwhile in the fight against cancerous cells. As it stands, carbon-coated iron-based core/shell nanoparticles have shown promising results, thrice in high magnetic saturation, high coercivity, and biocompatibility. The objective of this thesis is to compare already synthesized iron-based core/shell nanoparticles to our synthesized nanoparticles, as well as indicate another potential precursor candidate to be used for synthesis of nanoparticles. The magnetic properties of the product of pyrolysis of iron phthalocyanine annealed under an oxygen-rich environment at different temperatures are investigated with a vibrating sample magnetometer (VSM), scanning electron microscope (SEM), and X-ray diffractometry (XRD). The magnetic hysteresis curve of different samples measured at 10 K and 300 K illustrates the strong magnetic responses to a varying magnetic field under a VSM. The magnetic saturation (MS), magnetic remanence (MR) and coercivity (HC) values for all samples are listed in Tables 3 through 6. We investigate the effects of annealing at different temperatures in an oxygen-rich environment for iron phthalocyanine, and demonstrate that as the annealing temperature is elevated, HC increases while the MS decreases. As the annealing temperature is elevated further above an optimal value, a sharp decreasing change of magnetic parameters can be related to the degradation of iron and the formation of iron oxide particles in different phases such as magnetite (Fe3O4), maghemite (Îđ-Fe2O3), and hematite (Îł-Fe2O3). To conclude, the magnetic properties of iron phthalocyanine post pyrolysis can be varied as a function of annealing temperature as shown in Figure 32 and 33. More detailed studies will be necessary to define nanoparticle distribution, their morphology, sizes, and crystal structure, along with the percent composition of inspected samples. The magnetic properties of the product of pyrolysis of iron porphyrin were also studied for comparison and their magnetic properties can be seen in Table 7. While more research into higher annealed temperatures should be performed, iron porphyrin has shown to be a promising candidate for synthesis of nanoparticles due to its interesting features, mainly its constant MR/MS ratio over different annealed temperatures.

Synthesis and Characterization of Iron Based Nanoparticles for Novel Applications

Synthesis and Characterization of Iron Based Nanoparticles for Novel Applications
Author: Hafsa Khurshid
Publisher:
Total Pages:
Release: 2011
Genre: Biomedical materials
ISBN: 9781124965673
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The work in this thesis has been focused on the fabrication and characterization of iron based nanoparticles with controlled size and morphology with the aim: (i) to investigate their properties for potential applications in MICR toners and biomedical field and (ii) to study finite size effects on the magnetic properties of the nanoparticles. For the biomedical applications, core/shell structured iron/iron-oxide and hollow shell nanoparticles were synthesized by thermal decomposition of iron organometallic compounds [Fe(CO) 5] at high temperature. Core/shell structured iron/iron-oxide nanoparticles have been prepared in the presence of oleic acid and oleylamine. Particle size and composition was controlled by varying the reaction parameters during synthesis. The as-made particles are hydrophobic and not dispersible in water. Water dispersibility was achieved by ligand exchange a with double hydrophilic diblock copolymer. Relaxometery measurements of the transverse relaxation time T 2 of the nanoparticles solution at 3 Tesla confirm that the core/shell nanoparticles are an excellent MRI contrast agent using T 2 weighted imaging sequences. In comparison to conventionally used iron oxide nanoparticles, iron/iron-oxide core/shell nanoparticles offer four times stronger T 2 shortening effect at comparable core size due to their higher magnetization. The magnetic properties were studied as a function of particle size, composition and morphology. Hollow nanostructures are composed of randomly oriented grains arranged together to make a shell layer and make an interesting class of materials. The hollow morphology can be used as an extra degree of freedom to control the magnetic properties. Owing to their hollow morphology, they can be used for the targeted drug delivery applications by filling the drug inside their cavity. For the magnetic toners applications, particles were synthesized by chemically reducing iron salt using sodium borohydride and then coated with polyethylene glycol. Parameters such as the reactant concentrations and their flow rate were varied to study the effect of particle size, structure and crystallinity on the magnetic nanoparticles. Many different hydrophilic surfactants and polymers electrolytes were investigated for the particles' stability in water. PSSNa was found to be the best coating agent among all the other investigated polymer and surfactants for particles stability in water. Particles have an average size of 50 nm and magnetization above 150 emu/g. It is anticipated that owing to their high saturation magnetization and magneto crystalline anisotropy, the incorporations of PSSNa coated nanoparticles into the MICR toner can reduce the pigment loading and hence optimize the toner quality. The magnetic properties were studied as a function of particle size, composition and morphology. The saturation magnetization and coercivity was found to be strongly dependent on the particle size and morphology. The estimated effective anisotropy of the particles was found to be much higher than their bulk values because of their morphology and finite size effects. Core/shell particles below an average size of 12 nm display superparamagnetism and exchange bias phenomenon. The hollow morphology can be used as an extra degree of freedom to control magnetic properties. The enormously large number of pinned spins at the inner and outer surface and at the interface between the grain boundaries in hollow nanoparticles, gives rise to a very large value of effective anisotropy in these nanoparticles and measured hyteresis loops are minor loops. The surface spin disorder contribution to magnetic behavior is strongly influenced by the cooling field magnitude.

Synthesis of Magnetic Nanoparticles and Carbon Based Nanohybrid Materials for Biomedical and Energy Application

Synthesis of Magnetic Nanoparticles and Carbon Based Nanohybrid Materials for Biomedical and Energy Application
Author: Xiao Jie Liu
Publisher:
Total Pages: 0
Release: 2014
Genre:
ISBN:
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This thesis was focused on the synthesis of magnetic nanoparticles of iron oxide and cobalt oxide and core-shell nanoparticles, consisting of a cobalt oxide coated iron oxide and on the development of composite nanomaterials - nanostructures carbon /metal oxide nanoparticles - for applications in the biomedical field and the energy. For the synthesis of NPs, the shape and size of NPs are dependent of the reaction conditions, which further affect their magnetic properties. Meanwhile, simulation showed that stearate chains can desorb more easily from iron atoms and release to form seeds than from cobalt atoms, which might explain distinctive behavior between the bath complexes. Regarding nanostructures carbon/metal oxide nanoparticles hybrid materials, the properties of the filled magnetic CNTs as heat mediator for photothermal ablation and as contrast agent for MRI were then evaluated and promising results have been obtained. Last, new composite materials (Nb205 nanoparticles/graphene or NTCs) were synthesized and promising results were obtaines in lithium battery tests : their use as anode allowed obtaining reversible capacities of 260 mAh/g.

Iron Oxide Nanoparticles for Biomedical Applications

Iron Oxide Nanoparticles for Biomedical Applications
Author: Sophie Laurent
Publisher: Elsevier
Total Pages: 336
Release: 2017-10-20
Genre: Technology & Engineering
ISBN: 0081012756
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Iron Oxide Nanoparticles for Biomedical Applications: Synthesis, Functionalization and Application begins with several chapters covering the synthesis, stabilization, physico-chemical characterization and functionalization of iron oxide nanoparticles. The second part of the book outlines the various biomedical imaging applications that currently take advantage of the magnetic properties of iron oxide nanoparticles. Brief attention is given to potential iron oxide based therapies, while the final chapter covers nanocytotoxicity, which is a key concern wherever exposure to nanomaterials might occur. This comprehensive book is an essential reference for all those academics and professionals who require thorough knowledge of recent and future developments in the role of iron oxide nanoparticles in biomedicine. Unlocks the potential of iron oxide nanoparticles to transform diagnostic imaging techniques Contains full coverage of new developments and recent research, making this essential reading for researchers and engineers alike Explains the synthesis, processing and characterization of iron oxide nanoparticles with a view to their use in biomedicine

The Mie Theory

The Mie Theory
Author: Wolfram Hergert
Publisher: Springer
Total Pages: 268
Release: 2012-06-30
Genre: Science
ISBN: 3642287387
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This book presents in a concise way the Mie theory and its current applications. It begins with an overview of current theories, computational methods, experimental techniques, and applications of optics of small particles. There is also some biographic information on Gustav Mie, who published his famous paper on the colour of Gold colloids in 1908. The Mie solution for the light scattering of small spherical particles set the basis for more advanced scattering theories and today there are many methods to calculate light scattering and absorption for practically any shape and composition of particles. The optics of small particles is of interest in industrial, atmospheric, astronomic and other research. The book covers the latest developments in divers fields in scattering theory such as plasmon resonance, multiple scattering and optical force.

Magnetic Nanoparticles in Biosensing and Medicine

Magnetic Nanoparticles in Biosensing and Medicine
Author: Nicholas J. Darton
Publisher: Cambridge University Press
Total Pages: 317
Release: 2019-02-14
Genre: Medical
ISBN: 1107031095
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Drawing together topics from a wide range of disciplines, and featuring up-to-date examples of clinical usage and research applications, this text provides a comprehensive insight into the fundamentals of magnetic biosensors and the applications of magnetic nanoparticles in medicine.

Complex Magnetic Nanostructures

Complex Magnetic Nanostructures
Author: Surender Kumar Sharma
Publisher: Springer
Total Pages: 468
Release: 2017-04-04
Genre: Technology & Engineering
ISBN: 3319520873
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This book offers a detailed discussion of the complex magnetic behavior of magnetic nanosystems, with its myriad of geometries (e.g. core-shell, heterodimer and dumbbell) and its different applications. It provides a broad overview of the numerous current studies concerned with magnetic nanoparticles, presenting key examples and an in-depth examination of the cutting-edge developments in this field. This contributed volume shares the latest developments in nanomagnetism with a wide audience: from upper undergraduate and graduate students to advanced specialists in both academia and industry. The first three chapters serve as a primer to the more advanced content found later in the book, making it an ideal introductory text for researchers starting in this field. It provides a forum for the critical evaluation of many aspects of complex nanomagnetism that are at the forefront of nanoscience today. It also presents highlights from the extensive literature on the topic, including the latest research in this field.

Green Nanoparticles

Green Nanoparticles
Author: Jayanta Kumar Patra
Publisher: Springer Nature
Total Pages: 395
Release: 2020-04-06
Genre: Science
ISBN: 3030392465
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Nanotechnology is the application of science to control matter at the molecular level. It has become one of the most promising applied technologies in all areas of science. Nanoparticles have multi-functional properties and have created very interesting applications in various fields such as medicine, nutrition, bioenergy, agriculture and the environment. But the biogenic syntheses of monodispersed nanoparticles with specific sizes and shapes have been a challenge in biomaterial science. Nanoparticles are of great interest due to their extremely small size and large surface-to-volume ratio, which lead to both chemical and physical differences in their properties (e.g., mechanical properties, biological and sterical properties, catalytic activity, thermal and electrical conductivity, optical absorption and melting point) compared to bulk of the same chemical composition. Recently, however, synthesizing metal nanoparticles using green technology via microorganisms, plants, viruses, and so on, has been extensively studied and has become recognized as a green and efficient way for further exploiting biological systems as convenient nanofactories. Thus the biological synthesis of nanoparticles is increasingly regarded as a rapid, ecofriendly, and easily scaled-up technology. Today researchers are developing new techniques and materials using nanotechnology that may be suitable for plants to boost their native functions. Recently, biological nanoparticles were found to be more pharmacologically active than physico-chemically synthesized nanoparticles. Various applications of biosynthesized nanoparticles have been discovered, especially in the field of biomedical research, such as applications to specific delivery of drugs, use for tumor detection, angiogenesis, genetic disease and genetic disorder diagnosis, photoimaging, and photothermal therapy. Further, iron oxide nanoparticles have been applied to cancer therapy, hyperthermia, drug delivery, tissue repair, cell labeling, targeting and immunoassays, detoxification of biological fluids, magnetic resonance imaging, and magnetically responsive drug delivery therapy. Nanoparticle synthesis for plant byproducts for biomedical applications has vast potential. This book offers researchers in plant science and biomedicine the latest research and opportunity to develop new tools for the synthesis of environmentally friendly and cost-effective nanoparticles for applications in biomedicine as well as other various fields.

Nanostructured Magnetic Materials

Nanostructured Magnetic Materials
Author: Sathish-Kumar Kamaraj
Publisher: CRC Press
Total Pages: 297
Release: 2023-08-21
Genre: Technology & Engineering
ISBN: 1000907929
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Functionalized magnetic nanomaterials are used in data storage, biomedical, environmental, and heterogeneous catalysis applications but there remain developmental challenges to overcome. Nanostructured Magnetic Materials: Functionalization and Diverse Applications covers different synthesis methods for magnetic nanomaterials and their functionalization strategies and highlights recent progress, opportunities, and challenges to utilizing these materials in real-time applications. Reviews recent progress made in the surface functionalization of magnetic nanoparticles Discusses physico-chemical characterization and synthesis techniques Presents the effect of the external magnetic field Details biological, energy, and environmental applications as well as future directions This reference will appeal to researchers, professionals, and advanced students in materials science and engineering and related fields.