Electrochemical Technologies for Energy Storage and Conversion

InhaltsangabeINTRODUCTION TO ELECTROCHEMICAL ENERGY STORAGE AND CONVERSION Globe Energy Status, Demand, Challenges, and Perspectives Driving Forces for Clean and Sustainable Energy Green and Sustainable Energy Sources: Solar, Wind, Hydro, Wave, Hydrogen, and Biofuel Storage and Conversion Electrochemical Science and Technology Overview Electrochemical Rechargeable Batteries: Li-Ion Batteries, Lead Acid Batteries, Ni-Mh Batteries, Zinc-Air batteries, Liquid Redox Batteries, and Supercapacitors Hydrogen and Small Fuel Generation and Storage: Water Electrolysis, Chloro-Alkaline Electrolysis, and CO2 Electroreduction Phosphoric Acid Fuel Cells Acidic and Alkaline PEM Fuel Cells Acidic and Alkaline Direct Methanol Fuel Cells Solid Oxide Fuel Cells Photoelectrochemical Cells for Solar Energy Conversion ELECTROCHEMICAL ENGINEERING FUNDAMENTALS Electrical Current/Voltage, Faraday's Law, Electric Efficiency, and Mass Balance Electrode/Electrolyte Interfaces and Electrode Potentials Electrode Kinetics: Charger Transfer, Bulter-Volmer Equation Electrode Kinetics: Mass Transfer, Diffusion Laws Porous Electrode Theory: Kinetics and Diffusion Structure, Design and Fabrication for Electrochemical Devices LIION RECHARGEABLE BATTERIES Introduction to Li-Ion Rechargeable Batteries Main Types and Structures of Li-Ion Rechargeable Batteries Electrochemical Processes in Li-Ion Rechargeable Batteries Battery Components: Anode, Cathode, Separator, Endplates, and Sealing Assembly and Manufacturing of Li-Ion Rechargeable Batteries LiIon Battery Performance, Testing and Diagnosis Degradation Mechanisms and Mitigation Strategies Applications: Portable, Backpower, and Transportation Challenges and Perspectives of Li-Ion Rechargeable Batteries LEAD ACID RECHARGEABLE BATTERIES Introduction to Lead Acid Batteries Main Types and Structures of Lead Acid Batteries Electrochemical Processes in Lead Acid Batteries Battery Components: Anode, Cathode, Separator, Endplates, and Sealing Assembly and Manufacturing of Lead Acid Batteries Lead Acid Battery Performance, Testing and Diagnosis Degradation Mechanisms and Mitigation Strategies Applications: Portable, Backpower, and Transportation Challenges and Perspectives of Lead Acid Batteries NICKEL METAL HYDRIDE (NI-MH) RECHARGEABLE BATTERIES Introduction to Ni-Mh Rechargeable Batteries Main Types and Structures of Ni-Mh Rechargeable Batteries Electrochemical Processes in Ni-Mh Rechargeable Batteries Battery Components: Anode, Cathode, Separator, Endplates, and Sealing Assembly and Manufacturing of Ni-Mh Rechargeable Batteries NiMh Battery Performance, Testing and Diagnosis Degradation Mechanisms and Mitigation Strategies Applications: Portable, Backpower, and Transportation Challenges and Perspectives of Ni-Mh Rechargeable Batteries METALAIR TECHNOLOGY MetalAir Technology Introduction to Aluminum-Air Technology Introduction to Lithium-Air Technology Introduction to Zinc-Air Technology MagnesiumAir Technology Structure of Magnesium-Air Cells Electrochemical Processes in Magnesium-Air Cells Components Manufacturing MagnesiumAir Cell Performance Degradation Mechanisms and Mitigation Strategies Applications Challgenges and Perspectives of Magnesium-Air Technology LIQUID REDOX RECHARGEABLE BATTERIES Introduction to Liquid Redox Batteries Main Types and Structures of Liquid Redox Batteries Electrochemical Processes in Liquid Redox Batteries Battery Components: Anode, Cathode, Membrane, Endplates, and Sealing Assembly and Manufacturing of Liquid Redox Batteries liquid redox battery stacking and systems Liquid Redox Battery Performance, Testing and Diagnosis Degradation Mechanisms and Mitigation Strategies Applications: Portable, Backpower, and Stationary Challenges and Perspectives of Liquid Redox Batteries WATER ELECTROLYSIS FOR HYDROGEN GENERATION AND STORAGE Introduction to H2O Electrolysis Main Types and Structures of H2O Electrolysis

Ru-Shi Liu is Professor at the Department of Chemistry of the National Taiwan University in Teipei where his research is focused on materials chemistry. After his PhD he joined the Materials Research Laboratories at the Industrial Technology Research Institute in Hsinchu, Taiwan, before returning to Teipei. He received various honors, including the Outstanding Young Chemist Award from the Chinese Chemical Society. Andy Sun holds a Canada Research Chair in the development nanomaterials and clean energy, and is Associate Professor in the Department of Mechanical and Materials Engineering at University of Western Ontario, Canada. The scope of his research ranges from fundamental science and applied nanotechnology to emerging engineering issues, specifically fuel cells, Li-ion batteries and energetic materials. Hansan Liu is Research Associate at the NRC Institute for Fuel Cell Innovation, Canada. He obtained his PhD from Xiamen University, China. Hansan Liu has ten years of research experience in the field of electrochemical energy conversion and storage devices, including Ni-MH batteries, lithium ion batteries as well as direct methanol and polyelectrolyte membrane fuel cells. Lei Zhang is Research Council Officer at the NRC Institute for Fuel Cell Innovation. She received her degrees in materials science and engineering from the Wuhan University of Technology, China, and an additional master degree in inorganic chemistry from the Simon Fraser University, Canada. Her research emphasis is on cost-effective catalyst development for polyelectrolyte membrane fuel cells and metal-air batteries. Jiujun Zhang is Senior Research Officer at the NRC Institute for Fuel Cell Innovation. He received his PhD from Wuhan University and took up a position at the Huazhong Normal University, followed by postdoctoral research at the California Institute of Technology, USA, University of York, UK, and the University of British Columbia, Canada. Jiujun Zhang has more than thirteen years of experience in fuel cell research and development.

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