Electrocatalysis in Fuel Cells (eBook, PDF)
A Non- and Low- Platinum Approach
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Electrocatalysis in Fuel Cells (eBook, PDF)
A Non- and Low- Platinum Approach
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Fuel cells are one of the most promising clean energy conversion devices that can solve the environmental and energy problems in our society. However, the high platinum loading of fuel cells - and thus their high cost - prevents their commercialization. Non- or low- platinum electrocatalysts are needed to lower the fuel cell cost.
Electrocatalysis in Fuel Cells: A Non and Low Platinum Approach is a comprehensive book summarizing recent advances of electrocatalysis in oxygen reduction and alcohol oxidation, with a particular focus on non- and low-Pt electrocatalysts. All twenty four…mehr
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Fuel cells are one of the most promising clean energy conversion devices that can solve the environmental and energy problems in our society. However, the high platinum loading of fuel cells - and thus their high cost - prevents their commercialization. Non- or low- platinum electrocatalysts are needed to lower the fuel cell cost.
Electrocatalysis in Fuel Cells: A Non and Low Platinum Approach is a comprehensive book summarizing recent advances of electrocatalysis in oxygen reduction and alcohol oxidation, with a particular focus on non- and low-Pt electrocatalysts. All twenty four chapters were written by worldwide experts in their fields. The fundamentals and applications of novel electrocatalysts are discussed thoroughly in the book.
The book is geared toward researchers in the field, postgraduate students and lecturers, and scientists and engineers at fuel cell and automotive companies. It can even be a reference book for those who are interested in this area.
Electrocatalysis in Fuel Cells: A Non and Low Platinum Approach is a comprehensive book summarizing recent advances of electrocatalysis in oxygen reduction and alcohol oxidation, with a particular focus on non- and low-Pt electrocatalysts. All twenty four chapters were written by worldwide experts in their fields. The fundamentals and applications of novel electrocatalysts are discussed thoroughly in the book.
The book is geared toward researchers in the field, postgraduate students and lecturers, and scientists and engineers at fuel cell and automotive companies. It can even be a reference book for those who are interested in this area.
Produktdetails
- Produktdetails
- Verlag: Springer London
- Erscheinungstermin: 8. April 2013
- Englisch
- ISBN-13: 9781447149118
- Artikelnr.: 43802204
- Verlag: Springer London
- Erscheinungstermin: 8. April 2013
- Englisch
- ISBN-13: 9781447149118
- Artikelnr.: 43802204
Minhua Shao is an Electrochemistry Fellow at UTC Power in South Windsor, Connecticut, USA. In collaboration with numerous universities, National Laboratories and automotive companies, Dr Shao has been leading the advanced catalysts team to design, synthesize and evaluate novel catalysts and supports for low- and medium- temperature fuel cells. He did his doctoral studies under the supervision of Dr. Radoslav Adzic at Brookhaven National Laboratory and earned his Ph.D. in Materials Science and Engineering in 2006 at State University of New York at Stony Brook, New York, USA.
Low Platinum Content Electrocatalysts for Methanol and Ethanol Electrooxidation.- Metal Modified Carbide Anode Electrocatalysts.- Electrocatalysis of Formic Acid Oxidation.- Recent Advances in Electrocatalysis of Formic Acid Oxidation.- Anode Catalysts for Alkaline Direct Alcohol Fuel Cells and Characteristics of the Catalyst Layer.- Palladium-Based Nanocatalysts for Alcohol Electro-oxidation in Alkaline Media.- Fundamental Studies on the Electrocatalytic Properties of Metal Macrocyclics and Other Complexes for the Electroreduction of O2.- Heat-Treated Non-Precious-Metal-Based Catalysts for Oxygen Reduction.- Recent Development of Non-precious Metal Catalysts.- The Controversial Role of the Metal in Fe- or Co-based Electrocatalysts for the Oxygen Reduction Reaction in Acid Medium.- Theoretical Study of Oxygen Reduction Reaction Catalysts: from Pt to Non-precious Metal Catalysts.- Metal-Free Electrocatalysts for Oxygen Reduction.- Metal Oxide-Based Compounds as Electrocatalysts for Oxygen Reduction Reaction.- Transition Metal Chalcogenides for Oxygen Reduction.- Non-Pt Cathode Electrocatalysts for Anion-Exchange Membrane Fuel Cells.- Au electrocatalysis for Oxygen Reduction.- Palladium-based Electrocatalysts for Oxygen Reduction Reaction.- Dealloyed Pt-based Core-Shell Catalysts for Oxygen Reduction.- Core-Shell Catalysts in PEMFC Cathode Environments.- Understanding Activity and Durability of Core/Shell Nanocatalysts for Fuel Cells.- Nano Structured Electrocatalysts for Oxygen Reduction Reaction: First Principles Computational Insights.- Efficient Oxygen Evolution Reaction Catalysts for Cell Reversal and Start/Stop Tolerance.- Metal Carbides in Fuel Cell Cathode.- Promises and Challenges of Unconventional Electrocatalyst Supports.
Low Platinum Content Electrocatalysts for Methanol and Ethanol Electrooxidation.- Metal Modified Carbide Anode Electrocatalysts.- Electrocatalysis of Formic Acid Oxidation.- Recent Advances in Electrocatalysis of Formic Acid Oxidation.- Anode Catalysts for Alkaline Direct Alcohol Fuel Cells and Characteristics of the Catalyst Layer.- Palladium-Based Nanocatalysts for Alcohol Electro-oxidation in Alkaline Media.- Fundamental Studies on the Electrocatalytic Properties of Metal Macrocyclics and Other Complexes for the Electroreduction of O2.- Heat-Treated Non-Precious-Metal-Based Catalysts for Oxygen Reduction.- Recent Development of Non-precious Metal Catalysts.- The Controversial Role of the Metal in Fe- or Co-based Electrocatalysts for the Oxygen Reduction Reaction in Acid Medium.- Theoretical Study of Oxygen Reduction Reaction Catalysts: from Pt to Non-precious Metal Catalysts.- Metal-Free Electrocatalysts for Oxygen Reduction.- Metal Oxide-Based Compounds as Electrocatalysts for Oxygen Reduction Reaction.- Transition Metal Chalcogenides for Oxygen Reduction.- Non-Pt Cathode Electrocatalysts for Anion-Exchange Membrane Fuel Cells.- Au electrocatalysis for Oxygen Reduction.- Palladium-based Electrocatalysts for Oxygen Reduction Reaction.- Dealloyed Pt-based Core-Shell Catalysts for Oxygen Reduction.- Core-Shell Catalysts in PEMFC Cathode Environments.- Understanding Activity and Durability of Core/Shell Nanocatalysts for Fuel Cells.- Nano Structured Electrocatalysts for Oxygen Reduction Reaction: First Principles Computational Insights.- Efficient Oxygen Evolution Reaction Catalysts for Cell Reversal and Start/Stop Tolerance.- Metal Carbides in Fuel Cell Cathode.- Promises and Challenges of Unconventional Electrocatalyst Supports.
Low Platinum Content Electrocatalysts for Methanol and Ethanol Electrooxidation.- Metal Modified Carbide Anode Electrocatalysts.- Electrocatalysis of Formic Acid Oxidation.- Recent Advances in Electrocatalysis of Formic Acid Oxidation.- Anode Catalysts for Alkaline Direct Alcohol Fuel Cells and Characteristics of the Catalyst Layer.- Palladium-Based Nanocatalysts for Alcohol Electro-oxidation in Alkaline Media.- Fundamental Studies on the Electrocatalytic Properties of Metal Macrocyclics and Other Complexes for the Electroreduction of O2.- Heat-Treated Non-Precious-Metal-Based Catalysts for Oxygen Reduction.- Recent Development of Non-precious Metal Catalysts.- The Controversial Role of the Metal in Fe- or Co-based Electrocatalysts for the Oxygen Reduction Reaction in Acid Medium.- Theoretical Study of Oxygen Reduction Reaction Catalysts: from Pt to Non-precious Metal Catalysts.- Metal-Free Electrocatalysts for Oxygen Reduction.- Metal Oxide-Based Compounds as Electrocatalysts for Oxygen Reduction Reaction.- Transition Metal Chalcogenides for Oxygen Reduction.- Non-Pt Cathode Electrocatalysts for Anion-Exchange Membrane Fuel Cells.- Au electrocatalysis for Oxygen Reduction.- Palladium-based Electrocatalysts for Oxygen Reduction Reaction.- Dealloyed Pt-based Core-Shell Catalysts for Oxygen Reduction.- Core-Shell Catalysts in PEMFC Cathode Environments.- Understanding Activity and Durability of Core/Shell Nanocatalysts for Fuel Cells.- Nano Structured Electrocatalysts for Oxygen Reduction Reaction: First Principles Computational Insights.- Efficient Oxygen Evolution Reaction Catalysts for Cell Reversal and Start/Stop Tolerance.- Metal Carbides in Fuel Cell Cathode.- Promises and Challenges of Unconventional Electrocatalyst Supports.
Low Platinum Content Electrocatalysts for Methanol and Ethanol Electrooxidation.- Metal Modified Carbide Anode Electrocatalysts.- Electrocatalysis of Formic Acid Oxidation.- Recent Advances in Electrocatalysis of Formic Acid Oxidation.- Anode Catalysts for Alkaline Direct Alcohol Fuel Cells and Characteristics of the Catalyst Layer.- Palladium-Based Nanocatalysts for Alcohol Electro-oxidation in Alkaline Media.- Fundamental Studies on the Electrocatalytic Properties of Metal Macrocyclics and Other Complexes for the Electroreduction of O2.- Heat-Treated Non-Precious-Metal-Based Catalysts for Oxygen Reduction.- Recent Development of Non-precious Metal Catalysts.- The Controversial Role of the Metal in Fe- or Co-based Electrocatalysts for the Oxygen Reduction Reaction in Acid Medium.- Theoretical Study of Oxygen Reduction Reaction Catalysts: from Pt to Non-precious Metal Catalysts.- Metal-Free Electrocatalysts for Oxygen Reduction.- Metal Oxide-Based Compounds as Electrocatalysts for Oxygen Reduction Reaction.- Transition Metal Chalcogenides for Oxygen Reduction.- Non-Pt Cathode Electrocatalysts for Anion-Exchange Membrane Fuel Cells.- Au electrocatalysis for Oxygen Reduction.- Palladium-based Electrocatalysts for Oxygen Reduction Reaction.- Dealloyed Pt-based Core-Shell Catalysts for Oxygen Reduction.- Core-Shell Catalysts in PEMFC Cathode Environments.- Understanding Activity and Durability of Core/Shell Nanocatalysts for Fuel Cells.- Nano Structured Electrocatalysts for Oxygen Reduction Reaction: First Principles Computational Insights.- Efficient Oxygen Evolution Reaction Catalysts for Cell Reversal and Start/Stop Tolerance.- Metal Carbides in Fuel Cell Cathode.- Promises and Challenges of Unconventional Electrocatalyst Supports.