1. Carbon nanotubes, graphene, porous carbon, and hybrid carbon-based materials: synthesis, properties, and functionalization for efficient energy storage 2. Architectural design and promises of carbon materials for energy conversion and storage: in laboratory and industry 3. Characterization techniques and analytical methods of carbon-based materials for energy applications 4. Sorption-based thermal energy storage on hierarchically porous carbon foams 5. Carbon nanomaterials for thermal rectification 6. Carbon nanomaterials for thermoelectric applications 7. Enhancing semiconductor photocatalysis with carbon nanostructures for water/air purification and self-cleaning applications 8. Recent progress in carbon-based materials as catalysts for electrochemical and photocatalytic water splitting 9. Carbon nanotubes in hybrid photovoltaics: dye sensitized and perovskites solar cells 10. Materials science of multifunctional supercapacitors based on nanocarbon networks 11. Carbon nanomaterials for rechargeable lithium-sulfur batteries 12. Carbon nanomaterials for metal-air batteries 13. Carbon nanomaterials for advanced lithium and sodium-ion batteries 14. Carbon-based integrated devices for efficient photo-energy conversion and storag 15. Carbonaceous materials for efficient electrocatalysis 16. Automated energy storage using carbon nanostructured materials 17. Atomic simulation of carbon nanomaterials for energy application 18. Prospects of carbon nanomaterials for energy storage and conversion