ISBN13: | 9781032369730 |
ISBN10: | 1032369736 |
Binding: | Hardback |
No. of pages: | 350 pages |
Size: | 234x156 mm |
Language: | English |
Illustrations: | 65 Illustrations, black & white; 16 Illustrations, color; 37 Halftones, black & white; 14 Halftones, color; 28 Line drawings, black & white; 2 Line drawings, color; 28 Tables, black & white |
700 |
Biology in general
Physical chemistry
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Biology in general (charity campaign)
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Nano-electrocatalyst for Oxygen Reduction Reaction
GBP 140.00
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The book covers fundamental ORR reaction kinetics theories, tools, and techniques. It also explains the nano electrocatalysts for ORR made of noble, non-noble, and nanocarbon materials. Finally, the book explores the applications of PEM fuel cells and metal-air batteries.
Global warming switches our reliance from fossil fuels to green, sustainable renewable energy sources. Because of its promising nature, high-efficiency nano-electrocatalysts have sparked interest in renewable energy. Hydrogen fuel cell/polymer electrolyte membrane (PEM) vehicles are the most environmentally conscious electromobility vehicles, with a high energy density and quick refuelling technology, prompting the auto industry to launch a variety of PEM fuel cell vehicles around the world. Oxygen reduction reaction (ORR) primary research interests include fuel cells and metal-air batteries. The sluggish kinetic reaction of ORR, which is responsible for the rate-limiting reaction at the PEM fuel cell cathodic system, further decreases energy efficiency. Optimising ORR for market expansion with cost-effective and efficient nano-electrocatalysts, on the other hand, remains a challenge.
The book covers fundamental ORR reaction kinetics theories, tools, and techniques. It also explains the nano electrocatalysts for ORR made of noble, non-noble, and nanocarbon materials. Finally, the book explores the applications of PEM fuel cells and metal-air batteries.
1. Surface Active Nano-islands Bounded PGM and non-PGM-based Nanoelectrocatalysts-driven Efficient ORR Activity for DMFCs and AAEMFCs 2. Recent Developments of Transition Metal Oxide Nanoparticles on Oxygen Reduction Reaction 3. Electrochemical Characterization of Oxygen Reduction Reaction Catalysts: A Step-by-Step Guide 4. Graphene Synthesis via Liquid Phase Exfoliation: Synthetic Approaches toward an Enhanced Nanoparticle Support 5. Design and Development of Membrane Electrode Assemblies for an Improved ORR towards High-performance PEM Fuel Cells 6. An Overview of Energy-efficient and Sustainable Oxygen Reduction Reaction Cathode in Microbial Fuel Cells 7. Power Electronics Interfaces for Portable and Vehicle PEMFC Systems 8. Biomass-derived Carbon Electrode Materials for Fuel Cells 9. Core-Shell Catalysts for Oxygen Reduction Reaction in Acidic Medium 10. Non-Noble Metal Catalysts in Oxygen Reduction Reaction 11. Novel Contributions to the Fundamental Role of Structural Engineering in Polymeric Membranes for Alkaline Fuel Cells 12. An Overview of Metal-Air Battery and Applications 13. Carbon Materials and their Performance as Support for Catalytic Nanoparticles.