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In recent years, micro- and nanosystems with magnetic properties have been extensively investigated in many fields, ranging from physics to medicine. The research in these areas has lately shown that if the magnetic compounds are opportunely functionalized and modified with moieties and specific functional groups, a plethora of challenging multidisciplinary applications is available, including the development of magnetically controlled particles, stimuli-responsive materials, magnetically guided chemical/drug-delivery systems, sensors, spintronics, separation and purification of contaminated groundwater and soils, ferrofluids and magnetorheological fluids, contrast agents for MRI, and internal sources of heat for the thermoablation of cancer. Magnetic compounds have been found to be highly selective and effective in all these application fields, from the molecular level to the microscale. This book aims at underlining the latest advances in the field of magnetic compounds, nanosystems, and materials, covering a large variety of topics related to novel synthesis and functionalization methods and the properties, applications, and use of magnetic systems in chemistry, materials science, diagnostics, and medical therapy.
Research & information: general --- paramagnetic properties --- gadolinium oxide --- relaxation agents --- nanoparticles --- magnetic materials --- nanostructured materials --- magnetic nanoparticles --- magnetometry --- magnetic hysteresis --- magnetic domain visualization --- magnetic resonance imaging --- magnetic fluid hyperthermia --- magnetic particle toxicity --- magnetically-guided drug delivery systems --- magnetite nanoparticles --- magnetic resonance imaging (MRI), polymeric core–shells --- magnetic submicron core–shells --- drug delivery --- adsorption --- magnetic separation --- nanotechnology --- water treatments --- iron oxide nanoparticles --- positive contrast agents --- ligands --- molecular magnetism --- single-ion magnets (SIMs) or monometallic single-molecule magnets --- single-molecule magnets (SMMs) --- synthetic strategies --- 3d-, 4d- and 5d-metal complexes as SIMs and SMMs --- heavy metals --- nanocomposite --- hybrid --- multi-metal --- water --- magnetic particle and nanoparticles --- single-molecule magnets --- MRI contrast agents
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This book, entitled “Mesoporous Metal Oxide Films”, contains an editorial and a collection of ten research articles covering fundamental studies and applications of different metal oxide films. Mesoporous materials have been widely investigated and applied in many technological applications owing to their outstanding structural and physical properties. In this book, important developments in this fast-moving field are presented from various research groups around the world. Different preparation methods and applications of these novel and interesting materials have been reported, and it was demonstrated that mesoporosity has a direct impact on the properties and potential applications of such materials. The potential use of mesoporous metal oxide films and coatings with different morphology and structures is demonstrated in many technological applications, particularly chemical and electrochemical sensors, supercapacitors, solar cells, photoelectrodes, bioceramics, photonic switches, and anticorrosion agents.
History of engineering & technology --- SnO2 --- Metglas --- hemin --- H2O2 --- cyclic voltammetry --- magnetoelastic resonance --- sensor --- titanium dioxide --- mesoporous --- thin film --- multi-layered --- photoanode --- semiconductor --- photoelectrochemical water oxidation --- Mn2O3 --- mesoporous materials --- electrochemical characterizations --- electrode --- supercapacitors --- gadolinium oxide --- hydrazine --- p-nitrophenol --- electrochemical sensing --- amperometric --- selective sensor --- nanocrystal --- ZnO --- density of states --- optical and electrical properties --- TiO2 films --- Ag nanoparticles --- optical properties --- spectroelectrochemistry --- surface plasmon --- Fe-doped TiO2 --- hydrothermal --- GCE --- chemical sensor --- amperometry --- dye-sensitized solar cells --- working electrode --- TiO2 --- NiO nanoparticles --- electron transport --- corrosion --- guar gum --- coatings --- electrochemical impedance spectroscopy (EIS) --- SECM --- AFM --- calcium phosphate silicate --- PEG --- bioceramics --- sol-gel preparation --- hard tissue engineering --- metal oxide --- sol-gel --- supercapacitor --- photoelectrode --- dye sensitized solar cell --- NiO
Choose an application
In recent years, micro- and nanosystems with magnetic properties have been extensively investigated in many fields, ranging from physics to medicine. The research in these areas has lately shown that if the magnetic compounds are opportunely functionalized and modified with moieties and specific functional groups, a plethora of challenging multidisciplinary applications is available, including the development of magnetically controlled particles, stimuli-responsive materials, magnetically guided chemical/drug-delivery systems, sensors, spintronics, separation and purification of contaminated groundwater and soils, ferrofluids and magnetorheological fluids, contrast agents for MRI, and internal sources of heat for the thermoablation of cancer. Magnetic compounds have been found to be highly selective and effective in all these application fields, from the molecular level to the microscale. This book aims at underlining the latest advances in the field of magnetic compounds, nanosystems, and materials, covering a large variety of topics related to novel synthesis and functionalization methods and the properties, applications, and use of magnetic systems in chemistry, materials science, diagnostics, and medical therapy.
paramagnetic properties --- gadolinium oxide --- relaxation agents --- nanoparticles --- magnetic materials --- nanostructured materials --- magnetic nanoparticles --- magnetometry --- magnetic hysteresis --- magnetic domain visualization --- magnetic resonance imaging --- magnetic fluid hyperthermia --- magnetic particle toxicity --- magnetically-guided drug delivery systems --- magnetite nanoparticles --- magnetic resonance imaging (MRI), polymeric core–shells --- magnetic submicron core–shells --- drug delivery --- adsorption --- magnetic separation --- nanotechnology --- water treatments --- iron oxide nanoparticles --- positive contrast agents --- ligands --- molecular magnetism --- single-ion magnets (SIMs) or monometallic single-molecule magnets --- single-molecule magnets (SMMs) --- synthetic strategies --- 3d-, 4d- and 5d-metal complexes as SIMs and SMMs --- heavy metals --- nanocomposite --- hybrid --- multi-metal --- water --- magnetic particle and nanoparticles --- single-molecule magnets --- MRI contrast agents
Choose an application
This book, entitled “Mesoporous Metal Oxide Films”, contains an editorial and a collection of ten research articles covering fundamental studies and applications of different metal oxide films. Mesoporous materials have been widely investigated and applied in many technological applications owing to their outstanding structural and physical properties. In this book, important developments in this fast-moving field are presented from various research groups around the world. Different preparation methods and applications of these novel and interesting materials have been reported, and it was demonstrated that mesoporosity has a direct impact on the properties and potential applications of such materials. The potential use of mesoporous metal oxide films and coatings with different morphology and structures is demonstrated in many technological applications, particularly chemical and electrochemical sensors, supercapacitors, solar cells, photoelectrodes, bioceramics, photonic switches, and anticorrosion agents.
SnO2 --- Metglas --- hemin --- H2O2 --- cyclic voltammetry --- magnetoelastic resonance --- sensor --- titanium dioxide --- mesoporous --- thin film --- multi-layered --- photoanode --- semiconductor --- photoelectrochemical water oxidation --- Mn2O3 --- mesoporous materials --- electrochemical characterizations --- electrode --- supercapacitors --- gadolinium oxide --- hydrazine --- p-nitrophenol --- electrochemical sensing --- amperometric --- selective sensor --- nanocrystal --- ZnO --- density of states --- optical and electrical properties --- TiO2 films --- Ag nanoparticles --- optical properties --- spectroelectrochemistry --- surface plasmon --- Fe-doped TiO2 --- hydrothermal --- GCE --- chemical sensor --- amperometry --- dye-sensitized solar cells --- working electrode --- TiO2 --- NiO nanoparticles --- electron transport --- corrosion --- guar gum --- coatings --- electrochemical impedance spectroscopy (EIS) --- SECM --- AFM --- calcium phosphate silicate --- PEG --- bioceramics --- sol-gel preparation --- hard tissue engineering --- metal oxide --- sol-gel --- supercapacitor --- photoelectrode --- dye sensitized solar cell --- NiO
Choose an application
In recent years, micro- and nanosystems with magnetic properties have been extensively investigated in many fields, ranging from physics to medicine. The research in these areas has lately shown that if the magnetic compounds are opportunely functionalized and modified with moieties and specific functional groups, a plethora of challenging multidisciplinary applications is available, including the development of magnetically controlled particles, stimuli-responsive materials, magnetically guided chemical/drug-delivery systems, sensors, spintronics, separation and purification of contaminated groundwater and soils, ferrofluids and magnetorheological fluids, contrast agents for MRI, and internal sources of heat for the thermoablation of cancer. Magnetic compounds have been found to be highly selective and effective in all these application fields, from the molecular level to the microscale. This book aims at underlining the latest advances in the field of magnetic compounds, nanosystems, and materials, covering a large variety of topics related to novel synthesis and functionalization methods and the properties, applications, and use of magnetic systems in chemistry, materials science, diagnostics, and medical therapy.
Research & information: general --- paramagnetic properties --- gadolinium oxide --- relaxation agents --- nanoparticles --- magnetic materials --- nanostructured materials --- magnetic nanoparticles --- magnetometry --- magnetic hysteresis --- magnetic domain visualization --- magnetic resonance imaging --- magnetic fluid hyperthermia --- magnetic particle toxicity --- magnetically-guided drug delivery systems --- magnetite nanoparticles --- magnetic resonance imaging (MRI), polymeric core–shells --- magnetic submicron core–shells --- drug delivery --- adsorption --- magnetic separation --- nanotechnology --- water treatments --- iron oxide nanoparticles --- positive contrast agents --- ligands --- molecular magnetism --- single-ion magnets (SIMs) or monometallic single-molecule magnets --- single-molecule magnets (SMMs) --- synthetic strategies --- 3d-, 4d- and 5d-metal complexes as SIMs and SMMs --- heavy metals --- nanocomposite --- hybrid --- multi-metal --- water --- magnetic particle and nanoparticles --- single-molecule magnets --- MRI contrast agents --- paramagnetic properties --- gadolinium oxide --- relaxation agents --- nanoparticles --- magnetic materials --- nanostructured materials --- magnetic nanoparticles --- magnetometry --- magnetic hysteresis --- magnetic domain visualization --- magnetic resonance imaging --- magnetic fluid hyperthermia --- magnetic particle toxicity --- magnetically-guided drug delivery systems --- magnetite nanoparticles --- magnetic resonance imaging (MRI), polymeric core–shells --- magnetic submicron core–shells --- drug delivery --- adsorption --- magnetic separation --- nanotechnology --- water treatments --- iron oxide nanoparticles --- positive contrast agents --- ligands --- molecular magnetism --- single-ion magnets (SIMs) or monometallic single-molecule magnets --- single-molecule magnets (SMMs) --- synthetic strategies --- 3d-, 4d- and 5d-metal complexes as SIMs and SMMs --- heavy metals --- nanocomposite --- hybrid --- multi-metal --- water --- magnetic particle and nanoparticles --- single-molecule magnets --- MRI contrast agents
Choose an application
This book, entitled “Mesoporous Metal Oxide Films”, contains an editorial and a collection of ten research articles covering fundamental studies and applications of different metal oxide films. Mesoporous materials have been widely investigated and applied in many technological applications owing to their outstanding structural and physical properties. In this book, important developments in this fast-moving field are presented from various research groups around the world. Different preparation methods and applications of these novel and interesting materials have been reported, and it was demonstrated that mesoporosity has a direct impact on the properties and potential applications of such materials. The potential use of mesoporous metal oxide films and coatings with different morphology and structures is demonstrated in many technological applications, particularly chemical and electrochemical sensors, supercapacitors, solar cells, photoelectrodes, bioceramics, photonic switches, and anticorrosion agents.
History of engineering & technology --- SnO2 --- Metglas --- hemin --- H2O2 --- cyclic voltammetry --- magnetoelastic resonance --- sensor --- titanium dioxide --- mesoporous --- thin film --- multi-layered --- photoanode --- semiconductor --- photoelectrochemical water oxidation --- Mn2O3 --- mesoporous materials --- electrochemical characterizations --- electrode --- supercapacitors --- gadolinium oxide --- hydrazine --- p-nitrophenol --- electrochemical sensing --- amperometric --- selective sensor --- nanocrystal --- ZnO --- density of states --- optical and electrical properties --- TiO2 films --- Ag nanoparticles --- optical properties --- spectroelectrochemistry --- surface plasmon --- Fe-doped TiO2 --- hydrothermal --- GCE --- chemical sensor --- amperometry --- dye-sensitized solar cells --- working electrode --- TiO2 --- NiO nanoparticles --- electron transport --- corrosion --- guar gum --- coatings --- electrochemical impedance spectroscopy (EIS) --- SECM --- AFM --- calcium phosphate silicate --- PEG --- bioceramics --- sol-gel preparation --- hard tissue engineering --- metal oxide --- sol-gel --- supercapacitor --- photoelectrode --- dye sensitized solar cell --- NiO --- SnO2 --- Metglas --- hemin --- H2O2 --- cyclic voltammetry --- magnetoelastic resonance --- sensor --- titanium dioxide --- mesoporous --- thin film --- multi-layered --- photoanode --- semiconductor --- photoelectrochemical water oxidation --- Mn2O3 --- mesoporous materials --- electrochemical characterizations --- electrode --- supercapacitors --- gadolinium oxide --- hydrazine --- p-nitrophenol --- electrochemical sensing --- amperometric --- selective sensor --- nanocrystal --- ZnO --- density of states --- optical and electrical properties --- TiO2 films --- Ag nanoparticles --- optical properties --- spectroelectrochemistry --- surface plasmon --- Fe-doped TiO2 --- hydrothermal --- GCE --- chemical sensor --- amperometry --- dye-sensitized solar cells --- working electrode --- TiO2 --- NiO nanoparticles --- electron transport --- corrosion --- guar gum --- coatings --- electrochemical impedance spectroscopy (EIS) --- SECM --- AFM --- calcium phosphate silicate --- PEG --- bioceramics --- sol-gel preparation --- hard tissue engineering --- metal oxide --- sol-gel --- supercapacitor --- photoelectrode --- dye sensitized solar cell --- NiO
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