Nanocomposites-Advanced Materials for Energy and Environmental Aspects
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portes grátis
Nanocomposites-Advanced Materials for Energy and Environmental Aspects
Khan, Mohammad Ehtisham; Aslam, Jeenat; Verma, Chandrabhan
Elsevier Science Publishing Co Inc
01/2023
660
Mole
Inglês
9780323997041
15 a 20 dias
1000
Descrição não disponível.
Section 1: Sustainable Fabrication Approaches: Fundamentals, Design & Developments 1. Introduction and fundamentals of nanocomposites 2. Properties of metal and metal oxides nanocomposites 3. Overview and fundamentals of polymer's nanocomposites 4. Fabrication approaches of nanocomposites 5. Design and developments strategies in fabrication of nanocomposites Section 2: Energy 6. Recent developments of nanocomposites in energy related application 7. Application of nanocomposites in fuel cell 8. Role of nanocomposite in hydrogen production 9. Nanocomposite in energy storage applications 10. Developments of nanocomposite in lithium-ion batteries 11. Developments of nanocomposite in super capacitor applications 12. Developments of nanocomposite in dye-sensitized solar cells 13. Recent development of nanocomposites in electrochemical capacitor applications Section 3: Environment 14. Development and mechanism of nanocomposites In Photocatalysis 15. Nanocomposites in detection of volatile compounds 16. Nanocomposites in detection of hydrazine 17. Application of Nanocomposites in waste water treatment 18. Nanocomposite in degradation of organic pollutants 19. Antimicrobial, and drug delivery aspect of nanocomposites 20. Nanocomposites based membrane for separation of hazardous contaminants from wastewater 21. Nanocomposite for treatment of textile effluents 22. Nanocomposite for the removal of pharmaceuticals in drinking water sources 23. Nanocomposite for indoor air filters and waste water treatment Section 4: Miscellaneous and Commercialization 24. Nanocomposites for adsorption of toxic metals 25. Nanocomposites for power generation 26. Nanocomposites for anticorrosive application 27. Commercialization and Economical Issue
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Adsorbent; Adsorption; Anode; Antimicrobial activity; Application; Applications; Battery; Biobased electrode; Biobased nanocomposite; Biocatalysis; Biomedicine; Bioorganic chemistry; Catalysis; Cathode; Ceramics; Characterization techniques; Charge density of membrane; Chemical reaction; Chemical reactions in materials science; Commercial; Composite; Composite materials; Composites; Computational methods; Corrosion; Corrosion protection; Corrosive media; Degradation; Design; Disperse nanomaterials; Drinking water; Drug delivery; Drug delivery approaches; Drug delivery system; Drugs; Dye degradation; Dye-sensitized solar cells; Electrical conductivity; Electrical materials; Electrocatalysis; Electrochemical energy conversion; Electrochemical energy engineering; Electrochemical energy storage; Electrochemical sensor; Electrochemical sensors and quartz crystal microbalance; Electrochemistry; Electrode; Electrolyte ion; Electronic engineering; Energy; Energy application; Energy resource; Energy storage; Energy systems; Energy-related devices; Environment; Environmental bioengineering; Environmental chemical engineering; Environmental nanotechnology; Environmental pollution; Environmental remediation; Environmental science; Environmental toxicology; Flexible electronics; Food packaging; Fuel cell; Fuel technology; Fundamentals; Hazardous dyes; Heavy metal; Heavy metal decontamination; Hydrogen energy; In-situ polymerization; Industry; Interface science; Introduction; K+; Latex; Layered compounds; Li+ Lithium-ion batteries; Materials application; Materials characterization; Materials chemistry; Materials class; Materials in biotechnology; Materials processing; Materials property type; Materials science; Materials science engineering; Materials structure; Materials synthesis; Mechanism; Membrane system; Metal nanomaterials; Metal oxide; Metal oxides; Metal-metal oxides; Metal-metal oxide; Metal-metal oxides
Section 1: Sustainable Fabrication Approaches: Fundamentals, Design & Developments 1. Introduction and fundamentals of nanocomposites 2. Properties of metal and metal oxides nanocomposites 3. Overview and fundamentals of polymer's nanocomposites 4. Fabrication approaches of nanocomposites 5. Design and developments strategies in fabrication of nanocomposites Section 2: Energy 6. Recent developments of nanocomposites in energy related application 7. Application of nanocomposites in fuel cell 8. Role of nanocomposite in hydrogen production 9. Nanocomposite in energy storage applications 10. Developments of nanocomposite in lithium-ion batteries 11. Developments of nanocomposite in super capacitor applications 12. Developments of nanocomposite in dye-sensitized solar cells 13. Recent development of nanocomposites in electrochemical capacitor applications Section 3: Environment 14. Development and mechanism of nanocomposites In Photocatalysis 15. Nanocomposites in detection of volatile compounds 16. Nanocomposites in detection of hydrazine 17. Application of Nanocomposites in waste water treatment 18. Nanocomposite in degradation of organic pollutants 19. Antimicrobial, and drug delivery aspect of nanocomposites 20. Nanocomposites based membrane for separation of hazardous contaminants from wastewater 21. Nanocomposite for treatment of textile effluents 22. Nanocomposite for the removal of pharmaceuticals in drinking water sources 23. Nanocomposite for indoor air filters and waste water treatment Section 4: Miscellaneous and Commercialization 24. Nanocomposites for adsorption of toxic metals 25. Nanocomposites for power generation 26. Nanocomposites for anticorrosive application 27. Commercialization and Economical Issue
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Adsorbent; Adsorption; Anode; Antimicrobial activity; Application; Applications; Battery; Biobased electrode; Biobased nanocomposite; Biocatalysis; Biomedicine; Bioorganic chemistry; Catalysis; Cathode; Ceramics; Characterization techniques; Charge density of membrane; Chemical reaction; Chemical reactions in materials science; Commercial; Composite; Composite materials; Composites; Computational methods; Corrosion; Corrosion protection; Corrosive media; Degradation; Design; Disperse nanomaterials; Drinking water; Drug delivery; Drug delivery approaches; Drug delivery system; Drugs; Dye degradation; Dye-sensitized solar cells; Electrical conductivity; Electrical materials; Electrocatalysis; Electrochemical energy conversion; Electrochemical energy engineering; Electrochemical energy storage; Electrochemical sensor; Electrochemical sensors and quartz crystal microbalance; Electrochemistry; Electrode; Electrolyte ion; Electronic engineering; Energy; Energy application; Energy resource; Energy storage; Energy systems; Energy-related devices; Environment; Environmental bioengineering; Environmental chemical engineering; Environmental nanotechnology; Environmental pollution; Environmental remediation; Environmental science; Environmental toxicology; Flexible electronics; Food packaging; Fuel cell; Fuel technology; Fundamentals; Hazardous dyes; Heavy metal; Heavy metal decontamination; Hydrogen energy; In-situ polymerization; Industry; Interface science; Introduction; K+; Latex; Layered compounds; Li+ Lithium-ion batteries; Materials application; Materials characterization; Materials chemistry; Materials class; Materials in biotechnology; Materials processing; Materials property type; Materials science; Materials science engineering; Materials structure; Materials synthesis; Mechanism; Membrane system; Metal nanomaterials; Metal oxide; Metal oxides; Metal-metal oxides; Metal-metal oxide; Metal-metal oxides
