Element-Doped Functional Carbon-based Materials
Carrasco-MarĂn, Francisco
Element-Doped Functional Carbon-based Materials - MDPI - Multidisciplinary Digital Publishing Institute 2020 - 1 electronic resource (188 p.)
Open Access
Carbon materials are one of the most fascinating materials because of their unique properties and potential use in several applications. They can be obtained from residues or by using advanced synthesis technologies like chemical vapor deposition. The carbon family is very broad, ranging from classical activated carbons to more advanced species such as carbon nanotubes and graphene. The surface chemistry is one of the most interesting aspects of this broad family of materials, which allows the incorporation of different types of chemical functionalities or heteroatoms on the carbon surface, such as O, N, B, S, or P, which can modify the acid-base character, hydrophobicity/hydrophilicity, or the electronic properties of these materials and, thus, determine the final application. This book represents a collection of original research articles and communications focused on the synthesis, properties, and applications of heteroatom-doped functional carbon materials.
Creative Commons
English
books978-3-03928-225-8 9783039282241 9783039282258
10.3390/books978-3-03928-225-8 doi
targeted adsorption graphene oxide bonding type oxygen reduction reaction (ORR) doping catalysis porous carbon Cd(II) nitrogen-doped graphene oxide sp3-defect heteroatoms amino group nitrogen-doped energy storage cross-link bond type energy power density polyaniline environmental remediation molten salt adsorption polyphosphates microcrystalline cellulose carbo microsphere Orange G carbon materials chemical functionalization physicochemical properties supercapacitor capacitance nanoparticles and shallow reservoirs pulse laser deposition co-activation method carbon capture and storage process (CCS) biochar CO2 adsorption studies graphene polypyrrole oxygen peroxide oxidation carbon nanotubes salt and base nanofluids carbon gels bio-phenol resin synergism magnetic moment photocatalysis oxygen reduction reaction carbon dioxide surface chemistry functionalized graphene oxide nitrogen-doped carbon materials N-doped carbon p-phenylene diamine electrochemical analysis mesoporosity carbon dioxide adsorption electrode material nitrogen-doped graphene nitrogen and oxygen doped activated carbon electrocatalysis supercapacitor
Element-Doped Functional Carbon-based Materials - MDPI - Multidisciplinary Digital Publishing Institute 2020 - 1 electronic resource (188 p.)
Open Access
Carbon materials are one of the most fascinating materials because of their unique properties and potential use in several applications. They can be obtained from residues or by using advanced synthesis technologies like chemical vapor deposition. The carbon family is very broad, ranging from classical activated carbons to more advanced species such as carbon nanotubes and graphene. The surface chemistry is one of the most interesting aspects of this broad family of materials, which allows the incorporation of different types of chemical functionalities or heteroatoms on the carbon surface, such as O, N, B, S, or P, which can modify the acid-base character, hydrophobicity/hydrophilicity, or the electronic properties of these materials and, thus, determine the final application. This book represents a collection of original research articles and communications focused on the synthesis, properties, and applications of heteroatom-doped functional carbon materials.
Creative Commons
English
books978-3-03928-225-8 9783039282241 9783039282258
10.3390/books978-3-03928-225-8 doi
targeted adsorption graphene oxide bonding type oxygen reduction reaction (ORR) doping catalysis porous carbon Cd(II) nitrogen-doped graphene oxide sp3-defect heteroatoms amino group nitrogen-doped energy storage cross-link bond type energy power density polyaniline environmental remediation molten salt adsorption polyphosphates microcrystalline cellulose carbo microsphere Orange G carbon materials chemical functionalization physicochemical properties supercapacitor capacitance nanoparticles and shallow reservoirs pulse laser deposition co-activation method carbon capture and storage process (CCS) biochar CO2 adsorption studies graphene polypyrrole oxygen peroxide oxidation carbon nanotubes salt and base nanofluids carbon gels bio-phenol resin synergism magnetic moment photocatalysis oxygen reduction reaction carbon dioxide surface chemistry functionalized graphene oxide nitrogen-doped carbon materials N-doped carbon p-phenylene diamine electrochemical analysis mesoporosity carbon dioxide adsorption electrode material nitrogen-doped graphene nitrogen and oxygen doped activated carbon electrocatalysis supercapacitor