Biomass-Derived Carbon Materials for Energy and Environmental Applications provides a clear view of biomass availability and sustainability and the different design principles and synthetic protocols available for their conversion into various types of carbonaceous materials for energy and environmental applications. Carbon materials derived from biomass have broad application prospects in the field of energy storage and conversion and environmental protection because of their modified porous structure, effective surface area, surface functionalities and introduction of heteroatoms The book is…mehr
Biomass-Derived Carbon Materials for Energy and Environmental Applications provides a clear view of biomass availability and sustainability and the different design principles and synthetic protocols available for their conversion into various types of carbonaceous materials for energy and environmental applications. Carbon materials derived from biomass have broad application prospects in the field of energy storage and conversion and environmental protection because of their modified porous structure, effective surface area, surface functionalities and introduction of heteroatoms The book is divided into three parts which thoroughly describe the availability of different types of biomass materials, their sustainability, different.
PART 1: Fundamentals 1. Biomass: Sources and availability 2. Carbon nanomaterials derived from biomass: Synthesis and characterization 3. Synthesis methodologies of biomass-derived porous carbons 4. Characterization techniques for the biomass-derived porous carbons 5. Structure engineering in biomass-derived carbon materials for energy and the environment PART 2: Biomass-derived carbon materials (BCMs) for Energy applications 6. Biomass-derived carbon material for Supercapacitors 7. Biomass-derived carbon materials for batteries 8. Modification of Biomass-derived carbon materials through heteroatom doping for energy storage applications 9. Biomass-derived carbon materials and their nanocomposites/hybrids for energy storage 10. Biomass-derived carbon material and their modifications for Oxygen reactions (ORR and OER). Chapter 11: Biomass-derived carbon materials for hydrogen evolution reactions (HER) 12. Biomass-derived carbon materials as a bifunctional electrocatalyst for water splitting reactions (OER/HER) 13. Structural engineering of biomass-derived carbon materials for electroreduction of CO2 14. Biomass-derived carbon material for electro-oxidation reactions 15. Biomass-derived carbon materials for electrochemical sensors PART 3: Biomass-derived carbon materials (BCMs) for Environment applications 16. Biomass-derived carbon materials as adsorbent materials 17. Biomass-derived carbon materials as catalysts for persulfate activation 18. Biomass-derived carbon materials as efficient photocatalysts 19. Biomass-derived carbon materials for CO2 capture PART 4: Circular economy and Future aspects 20. Circular economy and future aspects of Biomass-derived carbon materials 21. Sustainability assessment for biomass-derived carbon-based materials 22. Environmental impact and toxicological concerns of biomass-derived carbon-based materials
PART 1: Fundamentals 1. Biomass: Sources and availability 2. Carbon nanomaterials derived from biomass: Synthesis and characterization 3. Synthesis methodologies of biomass-derived porous carbons 4. Characterization techniques for the biomass-derived porous carbons 5. Structure engineering in biomass-derived carbon materials for energy and the environment PART 2: Biomass-derived carbon materials (BCMs) for Energy applications 6. Biomass-derived carbon material for Supercapacitors 7. Biomass-derived carbon materials for batteries 8. Modification of Biomass-derived carbon materials through heteroatom doping for energy storage applications 9. Biomass-derived carbon materials and their nanocomposites/hybrids for energy storage 10. Biomass-derived carbon material and their modifications for Oxygen reactions (ORR and OER). Chapter 11: Biomass-derived carbon materials for hydrogen evolution reactions (HER) 12. Biomass-derived carbon materials as a bifunctional electrocatalyst for water splitting reactions (OER/HER) 13. Structural engineering of biomass-derived carbon materials for electroreduction of CO2 14. Biomass-derived carbon material for electro-oxidation reactions 15. Biomass-derived carbon materials for electrochemical sensors PART 3: Biomass-derived carbon materials (BCMs) for Environment applications 16. Biomass-derived carbon materials as adsorbent materials 17. Biomass-derived carbon materials as catalysts for persulfate activation 18. Biomass-derived carbon materials as efficient photocatalysts 19. Biomass-derived carbon materials for CO2 capture PART 4: Circular economy and Future aspects 20. Circular economy and future aspects of Biomass-derived carbon materials 21. Sustainability assessment for biomass-derived carbon-based materials 22. Environmental impact and toxicological concerns of biomass-derived carbon-based materials
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