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New carbon materials with improved mechanical, electrical, chemical, and optical properties are predicted and considered to be very promising for practical application. Carbon-based materials in the form of films, fabrics, aerogels, or microstructural materials are known for their large surface areas and pore volumes, light weight, and a great variety of structural morphology. Such unique structures can then be employed for a variety of purposes, for example, the production of new electronic devices, energy storage, and the fabrication of new materials. Nowadays, clear understanding of carbon materials via several examples of synthesis/processing methodologies and properties characterization is required. This Special Issue, “Carbon-Based Materials”, addresses the current state regarding the production and investigation of carbon-based materials. It consists of 13 peer-reviewed papers that cover both theoretical and experimental works in a wide a range of subjects on carbon structures.
Technology: general issues --- carbon nanowalls --- plasma synthesis --- growth mechanism --- deposition speed --- deposition parameters --- deposition temperature --- reduced graphene oxide --- nitrogen-doping --- chemical vapor deposition --- physicochemical properties --- optical properties --- electrical conductivity --- graphite platelet coatings --- LDPE --- thermal expansion coefficient --- thermoresistive properties --- graphene oxide --- organosilanes --- grafting --- solid state NMR --- XRD --- ESR --- carbon nanotube bundle --- plane strain conditions --- lateral compression --- equilibrium structure --- thermal stability --- chain model --- single crystal diamond --- Homoepitaxy growth --- 300 torr --- graphene --- one-side modification --- hydrogenation --- fluorination --- chlorination --- CVD mosaic --- surface morphology --- substrates --- energy gap --- Dirac velocity --- mechanical deformation --- critical charge --- supercharged impurity --- resonant scattering --- coordination --- metallosupramolecular polymer --- active site --- carbon materials --- oxygen reduction reaction --- high volatile coking coal --- boron carbide --- coking behavior --- chemical structure --- coke quality --- crumpled graphene --- Ni-graphene composite --- hydrogen --- molecular dynamics --- storage media --- nitrogen-doped carbon nanotubes --- oxygen reduction reaction (ORR) --- palladium --- chromium removal --- Ni–graphene composite --- mechanical properties
Choose an application
New carbon materials with improved mechanical, electrical, chemical, and optical properties are predicted and considered to be very promising for practical application. Carbon-based materials in the form of films, fabrics, aerogels, or microstructural materials are known for their large surface areas and pore volumes, light weight, and a great variety of structural morphology. Such unique structures can then be employed for a variety of purposes, for example, the production of new electronic devices, energy storage, and the fabrication of new materials. Nowadays, clear understanding of carbon materials via several examples of synthesis/processing methodologies and properties characterization is required. This Special Issue, “Carbon-Based Materials”, addresses the current state regarding the production and investigation of carbon-based materials. It consists of 13 peer-reviewed papers that cover both theoretical and experimental works in a wide a range of subjects on carbon structures.
carbon nanowalls --- plasma synthesis --- growth mechanism --- deposition speed --- deposition parameters --- deposition temperature --- reduced graphene oxide --- nitrogen-doping --- chemical vapor deposition --- physicochemical properties --- optical properties --- electrical conductivity --- graphite platelet coatings --- LDPE --- thermal expansion coefficient --- thermoresistive properties --- graphene oxide --- organosilanes --- grafting --- solid state NMR --- XRD --- ESR --- carbon nanotube bundle --- plane strain conditions --- lateral compression --- equilibrium structure --- thermal stability --- chain model --- single crystal diamond --- Homoepitaxy growth --- 300 torr --- graphene --- one-side modification --- hydrogenation --- fluorination --- chlorination --- CVD mosaic --- surface morphology --- substrates --- energy gap --- Dirac velocity --- mechanical deformation --- critical charge --- supercharged impurity --- resonant scattering --- coordination --- metallosupramolecular polymer --- active site --- carbon materials --- oxygen reduction reaction --- high volatile coking coal --- boron carbide --- coking behavior --- chemical structure --- coke quality --- crumpled graphene --- Ni-graphene composite --- hydrogen --- molecular dynamics --- storage media --- nitrogen-doped carbon nanotubes --- oxygen reduction reaction (ORR) --- palladium --- chromium removal --- Ni–graphene composite --- mechanical properties
Choose an application
New carbon materials with improved mechanical, electrical, chemical, and optical properties are predicted and considered to be very promising for practical application. Carbon-based materials in the form of films, fabrics, aerogels, or microstructural materials are known for their large surface areas and pore volumes, light weight, and a great variety of structural morphology. Such unique structures can then be employed for a variety of purposes, for example, the production of new electronic devices, energy storage, and the fabrication of new materials. Nowadays, clear understanding of carbon materials via several examples of synthesis/processing methodologies and properties characterization is required. This Special Issue, “Carbon-Based Materials”, addresses the current state regarding the production and investigation of carbon-based materials. It consists of 13 peer-reviewed papers that cover both theoretical and experimental works in a wide a range of subjects on carbon structures.
Technology: general issues --- carbon nanowalls --- plasma synthesis --- growth mechanism --- deposition speed --- deposition parameters --- deposition temperature --- reduced graphene oxide --- nitrogen-doping --- chemical vapor deposition --- physicochemical properties --- optical properties --- electrical conductivity --- graphite platelet coatings --- LDPE --- thermal expansion coefficient --- thermoresistive properties --- graphene oxide --- organosilanes --- grafting --- solid state NMR --- XRD --- ESR --- carbon nanotube bundle --- plane strain conditions --- lateral compression --- equilibrium structure --- thermal stability --- chain model --- single crystal diamond --- Homoepitaxy growth --- 300 torr --- graphene --- one-side modification --- hydrogenation --- fluorination --- chlorination --- CVD mosaic --- surface morphology --- substrates --- energy gap --- Dirac velocity --- mechanical deformation --- critical charge --- supercharged impurity --- resonant scattering --- coordination --- metallosupramolecular polymer --- active site --- carbon materials --- oxygen reduction reaction --- high volatile coking coal --- boron carbide --- coking behavior --- chemical structure --- coke quality --- crumpled graphene --- Ni-graphene composite --- hydrogen --- molecular dynamics --- storage media --- nitrogen-doped carbon nanotubes --- oxygen reduction reaction (ORR) --- palladium --- chromium removal --- Ni–graphene composite --- mechanical properties --- carbon nanowalls --- plasma synthesis --- growth mechanism --- deposition speed --- deposition parameters --- deposition temperature --- reduced graphene oxide --- nitrogen-doping --- chemical vapor deposition --- physicochemical properties --- optical properties --- electrical conductivity --- graphite platelet coatings --- LDPE --- thermal expansion coefficient --- thermoresistive properties --- graphene oxide --- organosilanes --- grafting --- solid state NMR --- XRD --- ESR --- carbon nanotube bundle --- plane strain conditions --- lateral compression --- equilibrium structure --- thermal stability --- chain model --- single crystal diamond --- Homoepitaxy growth --- 300 torr --- graphene --- one-side modification --- hydrogenation --- fluorination --- chlorination --- CVD mosaic --- surface morphology --- substrates --- energy gap --- Dirac velocity --- mechanical deformation --- critical charge --- supercharged impurity --- resonant scattering --- coordination --- metallosupramolecular polymer --- active site --- carbon materials --- oxygen reduction reaction --- high volatile coking coal --- boron carbide --- coking behavior --- chemical structure --- coke quality --- crumpled graphene --- Ni-graphene composite --- hydrogen --- molecular dynamics --- storage media --- nitrogen-doped carbon nanotubes --- oxygen reduction reaction (ORR) --- palladium --- chromium removal --- Ni–graphene composite --- mechanical properties
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