Metal oxide-carbon hybrid materials : synthesis, properties and applications / edited by Muhammad Akram Chaudhry, Rafaqat Hussain and Faheem K. Butt.
Contributor(s): Chaudhry, Muhammad Akram | Hussain, Rafaqat | Butt, Faheem K | Korotchenkov, G. S. (Gennadi�i Sergeevich).
Material type: BookSeries: Metal oxides series: Publisher: Amsterdam, Netherlands : Elsevier, 2022Description: 1 online resource (590 pages).Content type: text Media type: computer Carrier type: online resourceISBN: 9780128227084; 0128227087.Subject(s): Metallic composites | Carbon composites | Metallic oxides | Composites �a matrice m�etallique | Composites �a fibres de carbone | Oxydes m�etalliques | Carbon composites | Metallic composites | Metallic oxidesAdditional physical formats: Print version:: Metal Oxide-Carbon Hybrid Materials.DDC classification: 620.16 Online resources: ScienceDirectPrint version record.
Front Cover -- Metal Oxide-Carbon Hybrid Materials -- The Metal Oxides Book Series Edited by Ghenadii Korotcenkov -- Forthcoming titles -- Published titles -- Metal Oxide-Carbon Hybrid Materials: Synthesis, Properties and Applications -- Copyright -- Contents -- List of contributors -- Volume editor biographies -- Series editor biography -- Preface to the volume -- Preface to the series -- 1 -- Metal oxide-carbon hybrid materials: Synthesis and properties -- 1 -- Physical and chemical aspects of metal oxide-carbon composites -- 1.1 Introduction -- 1.2 Materials in the nanoscale
1.3 Relevance of the term "nanoparticles" -- 1.4 Metal oxide-carbon nanocomposites -- 1.5 Classification of metal oxide/carbon nanocomposites -- 1.5.1 One-dimensional carbon-metal oxide nanocomposites -- 1.5.2 Two-dimensional carbon-metal oxide composites -- 1.5.3 Three-dimensional carbon-metal oxide composites -- 1.6 Conclusion and future perspectives -- Acknowledgments -- References -- Further reading -- 2 -- Metal oxide-carbon composite: synthesis and properties by using conventional enabling technologies -- 2.1 Introduction -- 2.2 Specific properties of metal oxide-carbon composites
2.2.1 Specific capacitance -- 2.2.2 Electrochemical double-layer capacitance -- 2.2.3 Pseudocapacitance -- 2.2.4 Energy density and power density -- 2.2.5 Hybrid supercapacitors -- 2.2.6 Properties of ideal metal oxide-carbon composites -- 2.3 General routes for making metal oxide-carbon composites -- 2.4 Synthesis methods of carbon-based metal oxide composites for supercapacitors -- 2.4.1 Hydrothermal method -- 2.4.2 Electrochemical deposition -- 2.4.3 Sol-gel method -- 2.4.4 Chemical precipitation method -- 2.4.5 Other methods
2.5 Synthesis methods of graphene-metal oxide composites for photocatalysis -- 2.5.1 Different synthesis techniques of graphene-metal oxide composites -- 2.5.1.1 Solution mixing method -- 2.5.1.2 Sol-gel method -- 2.5.1.3 Hydrothermal/solvothermal method -- 2.5.1.4 Self-assembly -- 2.5.1.5 Other methods -- 2.5.2 Application of graphene-metal oxide composites in photocatalysis -- 2.5.2.1 Water splitting for hydrogen production -- 2.5.2.2 Photodegradation of pollutants -- 2.6 Conclusion
2.7 Challenges and synthesis advancement in using conventional enabling technologies for metal oxide-carbon composites -- Acknowledgments -- References -- 3 -- Electrical conductivity of metal oxide-carbon composites -- 3.1 Nature of metal oxide-carbon substrate bindings -- 3.2 Carbon interfaces for conductive composites with metal oxides -- 3.2.1 Carbon fibers as a conductive interface -- 3.2.2 Carbon nanotubes as a conductive interface -- 3.2.3 Graphene as a conductive interface -- 3.2.4 Activated carbon as a conductive interface
3.3 Synthetic strategies for conductive metal oxide-carbon composites.
Includes index.
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