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Full Description
Nanomaterials for Direct Alcohol Fuel Cells explains nanomaterials and nanocomposites as well as the characterization, manufacturing, and design of alcohol fuel cell applications. The advantages of direct alcohol fuel cells (DAFCs) are significant for reliable and long-lasting portable power sources used in devices such as mobile phones and computers. Even though substantial improvements have been made in DAFC systems over the last decade, more effort is needed to commercialize DAFCs by producing durable, low-cost, and smaller-sized devices. Nanomaterials have an important role to play in achieving this aim.
The use of nanotechnology in DAFCs is vital due to their role in the synthesis of nanocatalysts within the manufacturing process. Lately, nanocatalysts containing carbon such as graphene, carbon nanotubes, and carbon nanocoils have also attracted much attention. When compared to traditional materials, carbon-based materials have unique advantages, such as high corrosion resistance, better electrical conductivity, and less catalyst poisoning. This book also covers different aspects of nanocomposites fabrication, including their preparation, design, and characterization techniques for their fuel cell applications.
This book is an important reference source for materials scientists, engineers, energy scientists, and electrochemists who are seeking to improve their understanding of how nanomaterials are being used to enhance the efficiency and lower the cost of DAFCs.
Contents
1. Fundamentals of electrochemistry
2. Nanomaterials and their classification
3. The electrochemical mechanism and transport phenomenon of liquid fuel cells
4. The material development and characterization of direct alcohol fuel cells
5. Fundamentals of alcohol fuel cells
6. The electrocatalysts with pH of the electrolyte for the complete pathways of the oxidation reactions
7. Pt-based catalysts for alcohol oxidation
8. Monometallic nanomaterials for direct alcohol fuel cells
9. Bimetallic nanomaterials for direct alcohol fuel cells
10. Ternary/quaternary nanomaterials for direct alcohol fuel cells
11. Catalysts for high-temperature fuel cells operated by alcohol fuels
12. Porous materials for polymer electrolyte membrane fuel cells
13. Novel materials structures and compositions for alcohol oxidation reaction
14. Synthesis and characterization of nanocomposite membranes for high-temperature polymer electrolyte membranes (PEM) methanol fuel cells
15. Fabrication and properties of polymer electrolyte membranes (PEM) for direct methanol fuel cell application
16. Carbonaceous nanomaterials (carbon nanotubes, fullerenes, and nanofibers) for alcohol fuel cells
17. Carbon-based nanomaterials for alcohol fuel cells
18. Dendrimer-based nanocomposites for alcohol fuel cells
19. Metal organic framework-based nanocomposites for alcohol fuel cells
20. Carbon-polymer hybrid-supported nanomaterials for alcohol fuel cells
21. Polymer-based nanocatalysts for alcohol fuel cells
22. Different synthesis methods of nanomaterials for direct alcohol fuel cells
23. The synthesis and characterization of size-controlled bimetallic nanoparticles
24. The synthesis and characterization of size-controlled monometallic nanoparticles
25. Topics on the fundamentals of the alcohol oxidation reactions in acid and alkaline electrolytes
26. Direct alcohol-fed solid oxide fuel cells
27. Commercial aspects of direct alcohol fuel cells
