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- Monometallic Nanomaterials for Dehydrogenation Reactions
2. Monometallic Nanomaterials for Hydrolysis Reactions
3. Pt-based catalysts for Hydrogen Evolution reactions
4. Bimetallic and Trimetallic nanomaterials for Hydrogen Production reactions
5. Theoretical Aspects of Nanoparticles for Hydrogen Storage Applications
6. Advances in Understanding the Effects on the Hydrogen Evolution Reaction
7. Nanocomposite Conducting Polymers for hydrogen production
8. Different synthesis strategy for nanocomposites for hydrogen evolution reactions from methanolysis of hydrazine borane (HB)
9. Nanocomposites for hydrolysis of NaBH4
10. Carbonaceous Nanomaterials (carbon Nanotubes, Fullerenes, and Nanofibers) for hydrogen production
11. Nanocomposites for hydrolysis of dimethylamine borane (DMAB)
12. Nanocatalysts for hydrogen evolution reactions from Hydrazine Borane (HB)
13. Nanocomposites for hydrogen evolution reactions from hydrolysis and methanolysis of ammonia borane (AB)
14. Carbon-based nanomaterials for hydrogen evolution reactions
15. Dendrimer-based nanocomposites for hydrogen evolution reactions
16. Carbon-polymer hybrid supported nanomaterials for hydrogen evolution reactions
17. Polymer-based nanocatalysts for hydrogen evolution reactions
18. Nano-photocatalysts for hydrogen production
19. Preparation Methods of Hydrogen Storage Materials and Nanomaterials
20. Hydrogen Storage in Metal Organic Frameworks
Nanomaterials for Hydrogen Storage Applications introduces nanomaterials and nanocomposites manufacturing and design for hydrogen storage applications. The book covers the manufacturing, design, characterization technique and hydrogen storage applications of a range of nanomaterials.
This book outlines fundamental characterization techniques for nanocomposites to establish their suitability for hydrogen storage applications. The morphological properties of nanomaterials help to understand the mechanical, thermal and electrical properties of the macromolecules.
Offering a sound knowledge of hydrogen storage application of nanocomposites, this book is an important resource both for materials scientists and engineers who are seeking to understand how nanomaterials can be used to create more efficient energy storage solutions.
- Assesses the characterization, design, manufacture and application of different types of nanomaterials for hydrogen storage
- Outlines the major challenges of using nanomaterials in hydrogen storage
- Discusses how the use of nanotechnology is helping engineers to create more effective hydrogen storage systems
Academics and R&D industry researchers in the fields of materials science, engineering and energy
- No. of pages:
- © Elsevier 2020
- 1st July 2020
- Paperback ISBN:
Fatih Sen is Associate Professor and Head of the Sen Research Group, Department of Biochemistry, Faculty of Science and Art, Dumlupinar University, Turkey. Dr Sen’s research focuses on energy and sensor applications of nanomaterials. This is his 2nd book for Elsevier, following Nanomaterials for Hydrogen Storage Applications, published in 2020.
Department of Biochemistry, Faculty of Science and Art, Dumlupinar University, Turkey
Dr. Anish Khan received his Ph.D. from Aligarh Muslim University, India in 2010. He completed his postdoctoral research at the School of Chemical Sciences, University Sains Malaysia (USM) in electroanalytical chemistry between 2010 and 2011. He has extensive research and teaching experience in the field of synthetic polymers, and organic-inorganic electrically conducting nanocomposites. He has published more than 100 research papers in high-impact international journals, more than 20 international conferences/ workshop papers, 3 published books with another 6 in progress and 12 book chapters. He is the Managerial Editor of the Chemical and Environmental Research (CER) Journal and is a member of the American Nano Society.
Assistant Professor, Chemistry Department, Centre of Excellence for Advanced Materials Research (CEAMR), Faculty of Science, King Abdulaziz University, Jeddah, Saudi Arabia
Abdullah Mohammed Ahmed Asiri is Professor and Chair of the Chemistry Department of King Abdulaziz University. He is also the Director of the Center for Excellence for Advanced Materials Research, and a member of the advisory committee for advancing materials for the National Technology Plan, at King Abdulaziz City of Science and Technology in Saudi Arabia. His interests include color chemistry, organic materials, organic photochromic compounds, and organic synthesis of heterocyclic compounds. He holds a PhD from the University of Wales, UK, has published widely and holds several patents.
Professor and Chair of the Chemistry Department, King Abdulaziz University, Saudi Arabia