Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Due to properties differing from those of larger materials, nanomaterials have been extensively used in different areas including nanomedicine, drug delivery, theragnosis, and bioimaging in recent years. Evaluating the toxicity profile (i.e., biocompatibility) of nanomaterials and their impact on health is essential to support the potential biomedical applications. This book deals with the two faces of nanomaterials, toxicity and bioactivity, hoping to aid with their development for clinical applications, reducing the possible risks associated with their use.

Research & information: general --- Biology, life sciences --- black phosphorus --- 2D nanomaterial --- cytotoxicity --- biomedical application --- multifunctional magnetic nanoparticles --- chlorin e6 --- folic acid --- in vivo penetration depth --- cancer cell targeting --- cell cycle --- nanoparticle location --- surface biocompatibility --- microtubule --- proteomics --- graphene --- h-BN --- nanostructured coatings --- biofilms --- E. cloacae --- carbon nanomaterials --- unique properties --- biomedical applications --- in vitro toxicity --- in vivo toxicity --- ZnO nanostructures --- toxicity --- biocompatibility --- physicochemical properties --- cells viability assays --- in vivo experiments --- fullerene derivatives --- drug-like descriptors --- binding activity --- cheminformatics --- neural networks modelling --- hydrogenation --- pharmacology --- toxicology --- black phosphorus --- 2D nanomaterial --- cytotoxicity --- biomedical application --- multifunctional magnetic nanoparticles --- chlorin e6 --- folic acid --- in vivo penetration depth --- cancer cell targeting --- cell cycle --- nanoparticle location --- surface biocompatibility --- microtubule --- proteomics --- graphene --- h-BN --- nanostructured coatings --- biofilms --- E. cloacae --- carbon nanomaterials --- unique properties --- biomedical applications --- in vitro toxicity --- in vivo toxicity --- ZnO nanostructures --- toxicity --- biocompatibility --- physicochemical properties --- cells viability assays --- in vivo experiments --- fullerene derivatives --- drug-like descriptors --- binding activity --- cheminformatics --- neural networks modelling --- hydrogenation --- pharmacology --- toxicology

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Ceramic materials in the form of coatings can significantly improve the functionality and applications of other engineering materials. Due to a wide range of controllable features and various deposition methods, it is possible to create tailored substrate–coating systems that meet the requirements of modern technologies. Therefore, it is crucial to understand the relationships between the structures, morphology and the properties of ceramic coatings and expand the base of scientific knowledge about them. This book contains a series of fourteen articles which present research on the production and properties of ceramic coatings designed to improve functionality for advanced applications.

Research & information: general --- Technology: general issues --- photocatalytic coatings --- solidification --- plasma spraying --- TiO2 --- microstructure --- LDPE --- RF CVD --- doped DLC structure --- wettability --- biocompatibility --- ceramic coating --- anti-oxidation --- SiO2@Al additive --- carbon steel --- calcium hydroxyapatite --- sol-gel synthesis --- thin films --- spin coating --- surface roughness --- simulated body fluid --- SiO2 coatings --- sol-gel --- Zn doping --- antibacterial coatings --- hydrophobic coatings --- Ni–Cr alloy --- Ti(C, N) coatings --- ion release --- atmospheric plasma spraying --- Al2O3 --- Cr2O3 --- sliding wear --- phase transformation --- reactivity --- sol-gel coating --- corrosion resistance --- cells viability --- hydrophilic coating --- nitriding --- low friction --- piston ring --- micron-/nano-grain coatings --- nanoindentation size effect --- trans-scale mechanics theory --- SiC coatings --- oxide fibers --- chemical vapor deposition --- deposition mechanism --- thickness control --- silicon carbon-nitride --- silicone carbon-oxide --- PECVD method --- inhomogeneous optical filters --- gradient interference filters --- organosilicon precursors --- alumina coating --- sol–gel --- composite coating --- graphene oxide --- graphene nanoplatelets (GNP) --- rGO --- adiabatic shear instability (ASI) --- cold spray --- titanium dioxide --- bonding mechanism --- adhesion strength --- substrate deformation --- amorphous interface layer --- n/a --- Ni-Cr alloy

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Ceramic materials in the form of coatings can significantly improve the functionality and applications of other engineering materials. Due to a wide range of controllable features and various deposition methods, it is possible to create tailored substrate–coating systems that meet the requirements of modern technologies. Therefore, it is crucial to understand the relationships between the structures, morphology and the properties of ceramic coatings and expand the base of scientific knowledge about them. This book contains a series of fourteen articles which present research on the production and properties of ceramic coatings designed to improve functionality for advanced applications.

Research & information: general --- Technology: general issues --- photocatalytic coatings --- solidification --- plasma spraying --- TiO2 --- microstructure --- LDPE --- RF CVD --- doped DLC structure --- wettability --- biocompatibility --- ceramic coating --- anti-oxidation --- SiO2@Al additive --- carbon steel --- calcium hydroxyapatite --- sol-gel synthesis --- thin films --- spin coating --- surface roughness --- simulated body fluid --- SiO2 coatings --- sol-gel --- Zn doping --- antibacterial coatings --- hydrophobic coatings --- Ni-Cr alloy --- Ti(C, N) coatings --- ion release --- atmospheric plasma spraying --- Al2O3 --- Cr2O3 --- sliding wear --- phase transformation --- reactivity --- sol-gel coating --- corrosion resistance --- cells viability --- hydrophilic coating --- nitriding --- low friction --- piston ring --- micron-/nano-grain coatings --- nanoindentation size effect --- trans-scale mechanics theory --- SiC coatings --- oxide fibers --- chemical vapor deposition --- deposition mechanism --- thickness control --- silicon carbon-nitride --- silicone carbon-oxide --- PECVD method --- inhomogeneous optical filters --- gradient interference filters --- organosilicon precursors --- alumina coating --- sol-gel --- composite coating --- graphene oxide --- graphene nanoplatelets (GNP) --- rGO --- adiabatic shear instability (ASI) --- cold spray --- titanium dioxide --- bonding mechanism --- adhesion strength --- substrate deformation --- amorphous interface layer --- photocatalytic coatings --- solidification --- plasma spraying --- TiO2 --- microstructure --- LDPE --- RF CVD --- doped DLC structure --- wettability --- biocompatibility --- ceramic coating --- anti-oxidation --- SiO2@Al additive --- carbon steel --- calcium hydroxyapatite --- sol-gel synthesis --- thin films --- spin coating --- surface roughness --- simulated body fluid --- SiO2 coatings --- sol-gel --- Zn doping --- antibacterial coatings --- hydrophobic coatings --- Ni-Cr alloy --- Ti(C, N) coatings --- ion release --- atmospheric plasma spraying --- Al2O3 --- Cr2O3 --- sliding wear --- phase transformation --- reactivity --- sol-gel coating --- corrosion resistance --- cells viability --- hydrophilic coating --- nitriding --- low friction --- piston ring --- micron-/nano-grain coatings --- nanoindentation size effect --- trans-scale mechanics theory --- SiC coatings --- oxide fibers --- chemical vapor deposition --- deposition mechanism --- thickness control --- silicon carbon-nitride --- silicone carbon-oxide --- PECVD method --- inhomogeneous optical filters --- gradient interference filters --- organosilicon precursors --- alumina coating --- sol-gel --- composite coating --- graphene oxide --- graphene nanoplatelets (GNP) --- rGO --- adiabatic shear instability (ASI) --- cold spray --- titanium dioxide --- bonding mechanism --- adhesion strength --- substrate deformation --- amorphous interface layer