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Full Description
This book provides an exploration of nanomaterial intervention the field of bioenergy production illustrating synthesis, characterization, and application in various bioenergy systems, including biodiesel, bioethanol, biogas, biohydrogen, and microbial fuel cells. It highlights current trends, challenges, and innovations to enhance energy conversion efficiency, sustainability, and scalability. It combines nanotechnology with artificial intelligence to optimize bioenergy systems and implications in biowaste conversion, bioeconomy, and sustainable energy generation.
Covers all major bioenergy production pathways, such as biodiesel, bioethanol, biogas, hydrogen, and microbial fuel cells
Combines nanotechnology, bioenergy, environmental science, and sustainability aspects
Discusses advanced topics like artificial intelligence, machine learning, and novel nanomaterials (e.g., MOFs and nanocellulose)
Emphasizes reducing environmental impact and aligns with global sustainability initiatives like the UNSDGs
Includes regional case studies such as biogas initiatives in Europe, biomass programs in India, and algal biofuel projects in Africa
This book is aimed at graduate students and researchers in environmental engineering, biotechnology, and materials science.
Contents
1.Nanomaterials-Based Bioenergy Generation : An Update and Challenges 2. Synthesis and Characterization of Nanomaterials Applicable in Bioenergy Production 3. Nanomaterials in Biomass Conversion for Sustainable Bioenergy Generation 4. Metal Oxide Conducting Polymer Nanocomposites for Bioenergy Applications 5. Metal Organic Framework Nanomaterials in Bioenergy Production Pathways 6. Hybrid Nanomaterials and Quantum Dots for Carbon Capture and Bioenergy Generation 7. Nanomaterial Based Photocatalysts for Sustainable Bioenergy Production 8. Sustainable Biohydrogen Generation through Nanomaterial Integration 9. Advanced Nanomaterials for Enhanced Biodiesel Production 10. Nanomaterials Applications in Enzyme Pretreatment and Bioethanol Production 11. Nanomaterials in Sustainable Biogas Production: Techniques and Applications 12. Nanomaterials in Algal Biofuel Pathways: Advances and Future Directions 13. Enzyme-Nanomaterial Conjugates for Sustainable Bioenergy Production 14. Nanomaterials-Based Strategies to Optimize Microbial Fuel Cells for Bioenergy Applications 15. Environmental Toxicity and Ethical Assessment of Nanomaterials in Bioenergy Applications 16. Scaling Up Nanomaterial Technologies for Industrial Bioenergy Production: Challenges, Opportunities and Market Insights 17. Artificial Intelligence and Machine Learning in Optimizing Nanomaterials based Bioenergy Production 18. Socio, Techno and Circular Bioeconomic Perspectives of Nanomaterials in Bioenergy Production 19. Global Energy Policies and Future Perspectives on the Role of Nanomaterials for Sustainable Bioenergy Production
