Coverart for item
The Resource Materials for low-temperature fuel cells, edited by Bradley Ladewig, San Ping Jiang, Yushan Yan

Materials for low-temperature fuel cells, edited by Bradley Ladewig, San Ping Jiang, Yushan Yan

Label
Materials for low-temperature fuel cells
Title
Materials for low-temperature fuel cells
Statement of responsibility
edited by Bradley Ladewig, San Ping Jiang, Yushan Yan
Contributor
Editor
Subject
Language
eng
Summary
There are a large number of books available on fuel cells; however, the majority are on specific types of fuel cells such as solid oxide fuel cells, proton exchange membrane fuel cells, or on specific technical aspects of fuel cells, e.g., the system or stack engineering. Thus, there is a need for a book focused on materials requirements in fuel cells. Key Materials in Low-Temperature Fuel Cells is a concise source of the most important and key materials and catalysts in low-temperature fuel cells. A related book will cover key materials in high-temperature fuel cells. The two books form part
Member of
Cataloging source
N$T
Index
index present
Literary form
non fiction
Nature of contents
  • dictionaries
  • bibliography
Series statement
New materials for sustainable energy and development
Materials for low-temperature fuel cells, edited by Bradley Ladewig, San Ping Jiang, Yushan Yan
Label
Materials for low-temperature fuel cells, edited by Bradley Ladewig, San Ping Jiang, Yushan Yan
Link
http://libproxy.rpi.edu/login?url=http://app.knovel.com/hotlink/toc/id:kpMLTFC003/materials-for-low
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Antecedent source
unknown
Bibliography note
Includes bibliographical references and index
Carrier category
online resource
Carrier category code
cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
txt
Content type MARC source
rdacontent
Contents
  • Materials for Low-Temperature Fuel Cells; Contents; Series Editor's Preface; About the Series Editor; About the Volume Editors; List of Contributors; 1 Key Materials for Low-Temperature Fuel Cells: An Introduction; 2 Alkaline Anion Exchange Membrane Fuel Cells; 2.1 Fuel Cells; 2.2 PEM Fuel Cell Principles; 2.2.1 Equilibrium Kinetics; 2.2.2 Butler-Volmer Kinetics; 2.2.3 Exchange Current Density; 2.2.4 The Fuel Cell Polarization Curve; 2.3 Alkaline Fuel Cells; 2.3.1 The ORR Mechanism; 2.3.2 The HOR in Alkaline; 2.3.3 The Aqueous Electrolyte AFC; 2.3.4 The AAEM Fuel Cell; 2.3.4.1 AAEM Principles
  • 2.3.4.2 Alkaline Membranes2.3.4.3 AAEM Fuel Cell Examples; 2.4 Summary; References; 3 Catalyst Support Materials for Proton Exchange Membrane Fuel Cells; 3.1 Introduction; 3.2 Current Status of Support Materials and Role of Carbon as Support in Fuel Cells; 3.3 Novel Carbon Materials as Electrocatalyst Support for Fuel Cells; 3.3.1 Mesoporous Carbon as Support Materials for Fuel Cells; 3.3.2 Graphite Nanofibers as Support Materials for Fuel Cells; 3.3.3 Carbon Nanotubes as Support Materials for Fuel Cells; 3.3.4 Graphene as Support Materials for Fuel Cells
  • 3.3.5 Nitrogen-Doped Carbon Materials3.4 Conductive Metal Oxide as Support Materials; 3.5 Metal Carbides and Metal Nitrides as Catalyst Supports; 3.6 Conducting Polymer as Support Materials for Fuel Cells; 3.7 Conducting Polymer-Grafted Carbon Materials; 3.8 3M Nanostructured Thin Film as Support Materials for Fuel Cells; 3.9 Summary and Outlook; References; 4 Anode Catalysts for Low-Temperature Direct Alcohol Fuel Cells; 4.1 Introduction; 4.2 Anode Catalysts for Direct Methanol Fuel Cells: Improved Performance of Binary and Ternary Catalysts; 4.2.1 Principles of Direct Methanol Fuel Cells
  • 4.2.2 Reaction Mechanisms and Catalysts for Methanol Electrooxidation4.3 Anode Catalysts for Direct Ethanol Fuel Cells: Break C-C Bond to Achieve Complete 12-Electron-Transfer Oxidation; 4.3.1 Principles of PEM-Direct Ethanol Fuel Cells; 4.3.2 Reaction Mechanisms and Catalysts for Ethanol Electrooxidation; 4.3.3 Anion Exchange Membrane-Based Direct Ethanol Fuel Cells (AEMDEFCs); 4.3.4 Anode Catalysts for AEM-DEFCs; 4.4 Anode Catalysts for Direct Polyol Fuel Cells (Ethylene Glycol, Glycerol): Cogenerate Electricity and Valuable Chemicals Based on Anion Exchange Membrane Platform
  • 4.4.1 Overview of Electrooxidation of Polyols4.4.2 Reaction Mechanisms and Catalysts for Ethylene Glycol Electrooxidation; 4.4.3 Reaction Mechanisms and Catalysts for Glycerol Electrooxidation; 4.5 Synthetic Methods of Metal Electrocatalysts; 4.5.1 Impregnation Method; 4.5.2 Colloidal Method; 4.5.2.1 Polyol Method; 4.5.2.2 Organic-Phase Method; 4.5.3 Microemulsion Method; 4.5.4 Other Methods; 4.6 Carbon Nanomaterials as Anode Catalyst Support; 4.6.1 Carbon Nanotubes; 4.6.2 Carbon Nanofibers; 4.6.3 Ordered Mesoporous Carbons; 4.6.4 Graphene Sheets; 4.7 Future Challenges and Opportunities
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Dimensions
unknown
http://library.link/vocab/discovery_link
{'f': 'http://opac.lib.rpi.edu/record=b4173755'}
Extent
1 online resource.
File format
unknown
Form of item
online
Isbn
9783527644308
Level of compression
unknown
Media category
computer
Media MARC source
rdamedia
Media type code
c
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote

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