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Metallic oxides. --- Iron oxides. --- Iron compounds --- Metallic oxides --- Metal oxides --- Metals --- Oxides

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The Ferrite term is used to refer to all magnetic oxides containing iron as major metallic component. Ferrites are very attractive materials because they simultaneously show high resistivity and high saturation magnetization, and attract now considerable attention, because of the interesting physics involved. Typical ferrite material possesses excellent chemical stability, high corrosion resistivity, magneto-crystalline anisotropy, magneto-striction, and magneto-optical properties. Ferrites belong to the group of ferrimagnetic oxides, and include rare-earth garnets and ortho-ferrites. Several

Ferrites (Magnetic materials) --- Magnetic materials. --- Materials --- Ferrates --- Gyrators --- Iron compounds --- Magnetic materials

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This book provides the multidisciplinary reading audience with a comprehensive state-of-the-art overview of research and innovations in the relationship between iron ores and iron ore materials. The book covers industrial sectors dealing with exploration and processing of iron ores as well as with advanced applications for iron ore materials and therefore entails a wide range of research fields including geology, exploration, beneficiation, agglomeration, reduction, smelting, and so on, thus encouraging life cycle thinking across the entire production chain. Iron remains the basis of modern civilization, and our sustainable future deeply depends upon our ability to satisfy the growing demand for iron and steel while decoupling hazardous emissions from economic growth. Therefore, environmental sustainability aspects are also broadly addressed. In response to socioeconomic and climatic challenges, the iron ore sector faces, this book delivers a vision for the new opportunities linked to deployment of the best available, innovative and breakthrough technologies as well as to advanced material applications.

Chemistry. --- Iron ores. --- Iron oxides. --- Iron compounds --- Metallic oxides --- Ores --- Physical sciences --- Physical Sciences --- Engineering and Technology --- Materials Science --- Metals and Nonmetals --- Solid-State Chemistry

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Ferrite devices. --- Ferrites (Magnetic materials) --- Nanostructured materials --- Electric properties. --- Nanomaterials --- Nanometer materials --- Nanophase materials --- Nanostructure controlled materials --- Nanostructure materials --- Ultra-fine microstructure materials --- Microstructure --- Nanotechnology --- Ferrates --- Gyrators --- Iron compounds --- Magnetic materials --- Electronic apparatus and appliances --- Magnetic devices

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Magnetoreception or magnetotaxis in bacteria was discovered only some 30 years ago. All magnetotactic bacteria, which occur in many environments and display a remarkable diversity, synthesize magnetosomes, complex intracellular organelles that contain magnetic iron crystals. Recent developments in the research on magnetotactic bacteria are presented in this volume. Included are reviews on the formation and organization of magnetosomes, the genes controlling magnetosome biomineralization, and new cryogenic techniques to visualize novel cytoskeleton structures. Described here are potential nanobiotechnological applications of the magnetosome crystals, which have magnetic and crystalline characteristics unmatched by their inorganic counterparts. Related topics such as the impact of biogenic magnetic crystals in geobiology and paleomagnetism also are discussed. The aim of the book is to provide a broad survey of this multidisciplinary field and to inspire future research on these fascinating organisms.

Magnetoreception. --- Bacteria --- Bactéries --- Physiology. --- Physiologie --- Magnetosomes. --- Magnetotactic bacteria. --- Magnetotactic bacteria --- Magnetosomes --- Magnetoreception --- Radiation --- Microbiological Phenomena --- Ferrous Compounds --- Electromagnetic Phenomena --- Ferric Compounds --- Minerals --- Physics --- Phenomena and Processes --- Inorganic Chemicals --- Physical Phenomena --- Iron Compounds --- Natural Science Disciplines --- Disciplines and Occupations --- Chemicals and Drugs --- Bacterial Physiological Phenomena --- Ferrosoferric Oxide --- Electromagnetic Fields --- Magnetics --- Biology --- Human Anatomy & Physiology --- Health & Biological Sciences --- Neuroscience --- Microbiology & Immunology --- Magnetosensation --- Bacteria, Magnetotactic --- Magnetic bacteria --- Life sciences. --- Biotechnology. --- Cell biology. --- Microbiology. --- Bacteriology. --- Life Sciences. --- Cell Biology. --- Biomagnetism --- Senses and sensation --- Cell organelles --- Cytology. --- Chemical engineering --- Genetic engineering --- Cell biology --- Cellular biology --- Cells --- Cytologists --- Microbial biology --- Microorganisms --- Microbiology