Emerging Atomic Layer Deposition for Hydrogen Energy

This book focuses on Atomic Layer Deposition (ALD) and its applications in the field of green hydrogen energy. It covers the fundamental understanding of how new functional materials can be synthesized by ALD, and provides insights into its use in advanced nanopatterning for microelectronics, energy storage systems, desalination, catalysis, and medical fields. The book also highlights the advancements in computational and experimental methodologies for optimizing ALD processes in the context of green hydrogen energy. The book addresses aspects that might affect deposition and green hydrogen energy, and presents analysis and characterization techniques in the field. With specific examples illustrating the progress in green hydrogen ALD processes and their impact on other technologies, this book aims to enable the reduction of cost, energy waste, and adverse environmental impacts associated with hydrogen energy. It provides a comprehensive overview of ALD technology, hydrogen production, purification, and storage methods, modeling and simulation techniques, analysis and characterization approaches, and future perspectives on green hydrogen energy.

Comprehensive coverage of ALD methods, simulations, and applications Cutting-edge insights into ALD for green hydrogen energy Practical strategies for reducing cost and environmental impacts in hydrogen energy

Autorentext

Dr Peter Ozaveshe Oviroh is a research fellow and also lectures on sustainable energy technologies at the Mechanical Engineering Science Department, University of Johannesburg, South Africa. He obtained his PhD from the same department. Dr. is a member of the American Society of Mechanical Engineers (ASME) and also a member of the Council of Engineers for the Energy Transition (CEET) - An independent advisory council to the United Nations Secretary-General. He has research interests in nanotechnology, particularly applying atomic layer deposition (ALD) to develop materials for water desalination applications. In addition, he is working on the applications of green hydrogen. He has been involved in several other projects that involve energy modelling, system optimization, and, in general, sustainable energy technologies. Dr Oviroh has published in several journals and conferences.

Dr Sunday Temitope Oyinbo received his PhD in Mechanical Engineering Science from the University of Johannesburg (UJ). He is currently a postdoctoral research fellow at the University of Johannesburg. As a member of the JENANO Research Group at the University of Johannesburg, his research interest focuses on nanotechnologies and associated processes (e.g. Atomic layer deposition (ALD) and cold gas dynamic spray (CGDS)). He has accumulated rich research experience in the microstructure reconstruction of metal matrix composite and hydrogen purification technology. He has research expertise in computational modelling and simulation, materials and microstructural characterization, finite element analysis (FEA), molecular dynamics (MD), density functional theory (DFT), and proficient knowledge in programming (LAMMPS code, Python script, VASP code). At present, the ultra-thin film composite metal membrane experiment platform has been built through computational modelling and surface functionality in the absorption and separation of gas through the nanoporous membrane has been achieved. He has published various research papers in International Journals and Conferences in the areas of nanotechnology and hydrogen economy.

Dr. Sina Karimzadeh is a Postdoctoral research Fellow at the University of Johannesburg. He holds a PhD degree in Mechanical engineering from the University of Johannesburg in 2024. His current research interest focuses on the development of energy storage systems including Li-ion battery and Hydrogen Storage by using atomic layer deposition (ALD) technique. He has also been involved in a number of projects including Hydrogen Generation, Thin Films and Nanotechnology, Drug Delivery, Heat Transfer, Water Purification Membrane and Computational modelling and simulation. He is currently the Head of the ALD and innovation sub-research JENANO group and the Lead experimentalist at the ALD facility in the University of Johannesburg.

Dr. Patrick Imoisili is a Senior Research Fellow at The Mechanical Engineering Science Department, Faculty of Engineering and the Built Environment. University of Johannesburg, South Africa. He is a 4IR (Fourth Industrial Revolution) Nanotechnology expert with the JENANO Research Group and head of the smart material sub-research group. He received his Ph.D. in Industrial Chemistry from the Federal University of Technology, Akure Nigeria. He is a charted Chemist, with the Institute of Charted Chemists of Nigeria (ICCON). A registered member of the Polymer Institute of Nigeria (PIN), Chemical Society of Nigeria (CSN), South Africa Chemical Insitute (SACI), and South African Council for Natural Scientific Professions (SACNASP). His research interest is in but not limited to chemistry, polymers, natural fibers polymer composite, Hybrid composite, nanocomposite, nanoparticle synthesis for drug delivery, and wastewater treatment, renewable energy, solar cells, thi

Inhalt

Chapter 1: Introduction to ALD Technologies.- Chapter 2: Technologies of Hydrogen Generation.- Chapter 3: Hydrogen Purification.- Chapter 4: Hydrogen Storage.- Chapter 5: ALD Modeling and Simulation-Hydrogen.- Chapter 6: Analysis and Characterization.- Chapter 7: Future Prospects.