TY - BOOK ID - 145282625 TI - Carbon-Based Materials PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Technology: general issues KW - carbon nanowalls KW - plasma synthesis KW - growth mechanism KW - deposition speed KW - deposition parameters KW - deposition temperature KW - reduced graphene oxide KW - nitrogen-doping KW - chemical vapor deposition KW - physicochemical properties KW - optical properties KW - electrical conductivity KW - graphite platelet coatings KW - LDPE KW - thermal expansion coefficient KW - thermoresistive properties KW - graphene oxide KW - organosilanes KW - grafting KW - solid state NMR KW - XRD KW - ESR KW - carbon nanotube bundle KW - plane strain conditions KW - lateral compression KW - equilibrium structure KW - thermal stability KW - chain model KW - single crystal diamond KW - Homoepitaxy growth KW - 300 torr KW - graphene KW - one-side modification KW - hydrogenation KW - fluorination KW - chlorination KW - CVD mosaic KW - surface morphology KW - substrates KW - energy gap KW - Dirac velocity KW - mechanical deformation KW - critical charge KW - supercharged impurity KW - resonant scattering KW - coordination KW - metallosupramolecular polymer KW - active site KW - carbon materials KW - oxygen reduction reaction KW - high volatile coking coal KW - boron carbide KW - coking behavior KW - chemical structure KW - coke quality KW - crumpled graphene KW - Ni-graphene composite KW - hydrogen KW - molecular dynamics KW - storage media KW - nitrogen-doped carbon nanotubes KW - oxygen reduction reaction (ORR) KW - palladium KW - chromium removal KW - Ni–graphene composite KW - mechanical properties KW - carbon nanowalls KW - plasma synthesis KW - growth mechanism KW - deposition speed KW - deposition parameters KW - deposition temperature KW - reduced graphene oxide KW - nitrogen-doping KW - chemical vapor deposition KW - physicochemical properties KW - optical properties KW - electrical conductivity KW - graphite platelet coatings KW - LDPE KW - thermal expansion coefficient KW - thermoresistive properties KW - graphene oxide KW - organosilanes KW - grafting KW - solid state NMR KW - XRD KW - ESR KW - carbon nanotube bundle KW - plane strain conditions KW - lateral compression KW - equilibrium structure KW - thermal stability KW - chain model KW - single crystal diamond KW - Homoepitaxy growth KW - 300 torr KW - graphene KW - one-side modification KW - hydrogenation KW - fluorination KW - chlorination KW - CVD mosaic KW - surface morphology KW - substrates KW - energy gap KW - Dirac velocity KW - mechanical deformation KW - critical charge KW - supercharged impurity KW - resonant scattering KW - coordination KW - metallosupramolecular polymer KW - active site KW - carbon materials KW - oxygen reduction reaction KW - high volatile coking coal KW - boron carbide KW - coking behavior KW - chemical structure KW - coke quality KW - crumpled graphene KW - Ni-graphene composite KW - hydrogen KW - molecular dynamics KW - storage media KW - nitrogen-doped carbon nanotubes KW - oxygen reduction reaction (ORR) KW - palladium KW - chromium removal KW - Ni–graphene composite KW - mechanical properties UR - https://www.unicat.be/uniCat?func=search&query=sysid:145282625 AB - 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. ER -