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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
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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.
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
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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The advent of graphene and, more recently, two-dimensional materials has opened new perspectives in electronics, optoelectronics, energy harvesting, and sensing applications. This book, based on a Special Issue published in Nanomaterials – MDPI covers experimental, simulation, and theoretical research on 2D materials and their van der Waals heterojunctions. The emphasis is the physical properties and the applications of 2D materials in state-of-the-art sensors and electronic or optoelectronic devices.
Technology: general issues --- ZnO/WS2 --- ZnO/WSe2 --- photocatalysis --- hybrid density functional --- copper vanadate --- photoanode --- water splitting --- graphene oxide --- Stone–Wales defected graphene --- half-metallocene --- adsorption energy --- density of states --- and magnetic property --- palladium selenide monolayer --- physical properties --- light-harvesting performance --- type-II heterostructure --- first principles calculations --- 2D materials --- field effect transistors --- PMMA --- tungsten diselenide --- graphene/MoS2 heterostructure --- optical properties --- electronic structure --- Layer-dependent --- Indium Selenide --- density functional theory --- work function --- MXene --- Ti3C2Tx --- transition metal dichalcogenides --- surface plasmon resonance --- sensitivity --- CdS/g-C3N4 --- strain-tunable --- WS2 --- large-area --- CVD --- fluorescence emission --- Raman mapping --- mechanical behaviors --- electronic properties --- photocatalytic properties --- graphene --- Schottky barrier --- diode --- photodetector --- heterojunction --- MOS (Metal Oxide Semiconductor) capacitor --- responsivity --- transition metal dichalcogenide --- van der Waals heterostructure --- photodetection --- photovoltaics --- ZnO/WS2 --- ZnO/WSe2 --- photocatalysis --- hybrid density functional --- copper vanadate --- photoanode --- water splitting --- graphene oxide --- Stone–Wales defected graphene --- half-metallocene --- adsorption energy --- density of states --- and magnetic property --- palladium selenide monolayer --- physical properties --- light-harvesting performance --- type-II heterostructure --- first principles calculations --- 2D materials --- field effect transistors --- PMMA --- tungsten diselenide --- graphene/MoS2 heterostructure --- optical properties --- electronic structure --- Layer-dependent --- Indium Selenide --- density functional theory --- work function --- MXene --- Ti3C2Tx --- transition metal dichalcogenides --- surface plasmon resonance --- sensitivity --- CdS/g-C3N4 --- strain-tunable --- WS2 --- large-area --- CVD --- fluorescence emission --- Raman mapping --- mechanical behaviors --- electronic properties --- photocatalytic properties --- graphene --- Schottky barrier --- diode --- photodetector --- heterojunction --- MOS (Metal Oxide Semiconductor) capacitor --- responsivity --- transition metal dichalcogenide --- van der Waals heterostructure --- photodetection --- photovoltaics
Choose an application
The advent of graphene and, more recently, two-dimensional materials has opened new perspectives in electronics, optoelectronics, energy harvesting, and sensing applications. This book, based on a Special Issue published in Nanomaterials – MDPI covers experimental, simulation, and theoretical research on 2D materials and their van der Waals heterojunctions. The emphasis is the physical properties and the applications of 2D materials in state-of-the-art sensors and electronic or optoelectronic devices.
Technology: general issues --- ZnO/WS2 --- ZnO/WSe2 --- photocatalysis --- hybrid density functional --- copper vanadate --- photoanode --- water splitting --- graphene oxide --- Stone–Wales defected graphene --- half-metallocene --- adsorption energy --- density of states --- and magnetic property --- palladium selenide monolayer --- physical properties --- light-harvesting performance --- type-II heterostructure --- first principles calculations --- 2D materials --- field effect transistors --- PMMA --- tungsten diselenide --- graphene/MoS2 heterostructure --- optical properties --- electronic structure --- Layer-dependent --- Indium Selenide --- density functional theory --- work function --- MXene --- Ti3C2Tx --- transition metal dichalcogenides --- surface plasmon resonance --- sensitivity --- CdS/g-C3N4 --- strain-tunable --- WS2 --- large-area --- CVD --- fluorescence emission --- Raman mapping --- mechanical behaviors --- electronic properties --- photocatalytic properties --- graphene --- Schottky barrier --- diode --- photodetector --- heterojunction --- MOS (Metal Oxide Semiconductor) capacitor --- responsivity --- transition metal dichalcogenide --- van der Waals heterostructure --- photodetection --- photovoltaics
Choose an application
The advent of graphene and, more recently, two-dimensional materials has opened new perspectives in electronics, optoelectronics, energy harvesting, and sensing applications. This book, based on a Special Issue published in Nanomaterials – MDPI covers experimental, simulation, and theoretical research on 2D materials and their van der Waals heterojunctions. The emphasis is the physical properties and the applications of 2D materials in state-of-the-art sensors and electronic or optoelectronic devices.
ZnO/WS2 --- ZnO/WSe2 --- photocatalysis --- hybrid density functional --- copper vanadate --- photoanode --- water splitting --- graphene oxide --- Stone–Wales defected graphene --- half-metallocene --- adsorption energy --- density of states --- and magnetic property --- palladium selenide monolayer --- physical properties --- light-harvesting performance --- type-II heterostructure --- first principles calculations --- 2D materials --- field effect transistors --- PMMA --- tungsten diselenide --- graphene/MoS2 heterostructure --- optical properties --- electronic structure --- Layer-dependent --- Indium Selenide --- density functional theory --- work function --- MXene --- Ti3C2Tx --- transition metal dichalcogenides --- surface plasmon resonance --- sensitivity --- CdS/g-C3N4 --- strain-tunable --- WS2 --- large-area --- CVD --- fluorescence emission --- Raman mapping --- mechanical behaviors --- electronic properties --- photocatalytic properties --- graphene --- Schottky barrier --- diode --- photodetector --- heterojunction --- MOS (Metal Oxide Semiconductor) capacitor --- responsivity --- transition metal dichalcogenide --- van der Waals heterostructure --- photodetection --- photovoltaics
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