Section One: Metal oxide-carbon hybrid materials: Synthesis and properties 1. Physical and chemical aspects of metal oxideecarbon composites 2. Metal oxideecarbon composite: synthesis and properties by using conventional enabling technologies 3. Electrical conductivity of metal oxideecarbon composites 4. Photoelectrochemical properties for metal oxideecarbon hybrid materials 5. Functionalized multimetal oxideecarbon nanotube-based nanocomposites and their properties
Section Two: Metal oxide-carbon composites in energy technologies 6. Metal oxideecarbon composites for supercapacitor applications 7. Hierarchical porous carbon-incorporated metal-based nanocomposites for secondary metal-ion batteries 8. Metal oxideecarbon nanofibers based composites for supercapacitors and batteries 9. Metal oxideecarbon composite electrode materials for rechargeable batteries 10. Two-dimensional transition metal carbide (MXene) for enhanced energy storage 11. Vanadium oxideecarbon composites and their energy storage applications
Section Three: Metal oxide-carbon composites in biomedical, catalytic, and other applications 12. Metal oxideecarbon composites and their applications in optoelectronics and electrochemical energy devices 13. Graphene oxideemetal oxide composites, syntheses, and applications in water purification 14. Biomedical applications of metal oxideecarbon composites 15. Antimicrobial studies of metal oxide nanomaterials 16. Metal oxideecarbon nanotube composites for photodegradation
Section Four: Metal oxide-carbonebased sensors 17. Potential carbon nanotubeemetal oxide hybrid nanostructures for gas-sensing applications 18. Drug-detection performance of carbon nanotubes decorated with metal oxide nanoparticles 19. Role of functionalized metal oxideecarbon nanocomposites in biomolecule detection 20. Metal oxide/carbon nanotube hybrid nanomaterials as ultraviolet photodetectors