Prof. Detlef Stolten is the Director of the Institute of Energy Research - Fuel Cells at the Research Center Jülich, Germany. Prof Stolten received his doctorate from the University of Technology at Clausthal, Germany. He served many years as a Research Scientist in the laboratories of Robert Bosch and Daimler Benz/Dornier. Since 1998 he has been holding the position of Director at the Research Center Jülich. Two years later he became Professor for Fuel Cell Technology at the University of Technology (RWTH) at Aachen. Prof. Stolten's research focuses on electrochemical energy engineering including electrochemistry and energy process engineering of Electrolysis, SOFC and PEFC systems, i.e. cell and stack technology, process and systems engineering as well as systems analysis. Prof. Stolten is Chairman of the Implementing Agreement Advanced Fuel Cells, member of the board of the International Association of Hydrogen Energy (IAHE) and is on the advisory boards of the German National Organization of Hydrogen and Fuel Cells (NOW), and the journal Fuel Cells. He was chairman of the World Hydrogen Energy Conference 2010 (WHEC 2010). Dr. Bernd Emonts is the Deputy Director of the Institute of Energy Research at the Jülich Research Center, Germany. He received his diploma in structural engineering from the Aachen University of Applied Sciences, Germany, in 1981. He went on to specialize in the fundamentals of mechanical engineering at RWTH Aachen University, Germany and was awarded his PhD in 1989. Working as a scientist, Dr. Emonts has been involved in extensive research and development projects in the areas of catalytic combustion and energy systems with low-temperature fuel cells. Between 1991 and 1994, he concurrently worked as an R & D advisor for a German industrial enterprise in the drying and coating technologies sector. In addition to his scientific activities at Jülich Research Center, Germany, Dr. Emonts lectured at Aachen University of Applied Sciences from 1999 to 2008. Dr. Emonts has published extensively in the field of Fuel Cells.

Volume 1

PART I: Technology

TECHNICAL ADVANCEMENT OF FUEL-CELL RESEARCH AND DEVELOPMENT
Introduction
Representative Research Findings for SOFCs
Representative Research Findings for HT-PEFCs
Representative Research Findings for DMFCs
Application and Demonstration in Transportation
Fuel Cells for Stationary Applications
Special Markets for Fuel Cells
Marketable Development Results
Conclusion

SINGLE-CHAMBER FUEL CELLS
Introduction
SC-SOFCs
SC-SOFC Systems
Applications of SC-SOFCs Systems
Conclusion

TECHNOLOGY AND APPLICATIONS OF MOLTEN CARBONATE FUEL CELLS
Molten Carbonate Fuel Cells overview
Analysis of MCFC Technology
Conventional and Innovative Applications
Conclusion

ALKALINE FUEL CELLS
Historical Introduction and Principle
Concepts of Alkaline Fuel-Cell Design Concepts
Electrolytes and Separators
Degradation

Carbon Dioxide Behavior
Conclusion

MICRO FUEL CELLS
Introduction
Physical Principles of Polymer Electrolyte Membrane Fuel Cells (PEMFCs)
Types of Micro Fuel Cells
Materials and Manufacturing
GDL Optimization
Conclusion

PRINCIPLES AND TECHNOLOGY OF MICROBIAL FUEL CELLS
Introduction
Materials and Methods
Microbial Catalysts
Applications and Proof of Concepts
Modeling
Outlook and Conclusions

MICRO-REACTORS FOR FUEL PROCESSING
Introduction
Heat and Mass Transfer in Micro-Reactors
Specific Features Required from Catalyst Formulations for Microchannel Plate Heat-Exchanger Reactors
Heat Management of Microchannel Plate Heat-Exchanger Reactors
Examples of Complete Microchannel Fuel Processors
Fabrication of Microchannel Plate Heat-Exchanger Reactors

REGENERATIVE FUEL CELLS
Introduction
Principles
History
Thermodynamics
Electrodes
Solid Oxide Electrolyte (SOE)
System Design and Components
Applications and Systems
Conclusion and Prospects

PART II: Materials and Production Processes

ADVANCES IN SOLID OXIDE FUEL CELL DEVELOPMENT BETWEEN 1995 AND 2010 AT FORSCHUNGSZENTRUM J¨ULICH GMBH, GERMANY
Introduction
Advances in Research, Development, and Testing of Single Cells
Conclusions

SOLID OXIDE FUEL CELL ELECTRODE FABRICATION BY INFILTRATION
Introduction
SOFC and Electrochemical Fundamentals
Current Status of Electrodes; Fabrication Methods of Electrodes
Electrode Materials
Infiltration
Conclusion

SEALING TECHNOLOGY FOR SOLID OXIDE FUEL CELLS
Introduction

Sealing Techniques
Conclusion

PHOSPHORIC ACID, AN ELECTROLYTE FOR FUEL CELLS - TEMPERATURE AND COMPOSITION DEPENDENCE OF VAPOR PRESSURE AND PROTON CONDUCTIVITY
Introduction
Short Overview of Basic Properties and Formal Considerations
Vapor Pressure of Water as a Function of Composition and Temperature
Proton Conductivity as a Function of Composition and Temperature
Equilibria between the Polyphosphoric Acid Species and "Composition" of Concentrated Phosphoric Acid
Conclusion

MATERIALS AND COATINGS FOR METALLIC BIPOLAR PLATES IN POLYMER ELECTROLYTE MEMBRANE FUEL CELLS
Introduction
Metallic Bipolar Plates
Discussion and Perspective

NANOSTRUCTURED MATERIALS FOR FUEL CELLS
Introduction
The Fuel Cell and Its System
Triple Phase Boundary
Electrodes to Oxidize Hydrogen
Membranes to Transport Ions
Electrocatalysts to Reduce Oxygen
Catalyst Supports to Conduct Electrons
Future Directions2

CATALYSIS IN LOW-TEMPERATURE FUEL CELLS - AN OVERVIEW
Introduction
Electrocatalysis in Fuel Cells
Electrocatalyst Degradation
Novel Support Materials
Catalyst Development, Characterization, and In Situ Studies in Fuel Cells
Catalysis in Hydrogen Production for Fuel Cells
Perspective

PART III: Analytics and Diagnostics

IMPEDANCE SPECTROSCOPY FOR HIGH-TEMPERATURE FUEL CELLS
Introduction
Fundamentals
Experimental Examples
Conclusion

POST-TEST CHARACTERIZATION OF SOLID OXIDE FUEL-CELL STACKS
Introduction
Stack Dissection
Conclusion and Outlook

IN SITU IMAGING AT LARGE-SCALE FACILITIES
Introduction
X-Rays and Neutrons
Application of In Situ 2D Methods
Application of 3D Methods
Conclusion

ANALYTICS OF PHYSICAL PROPERTIES OF LOW-TEMPERATURE FUEL CELLS
Introduction
Gravimetric Properties
Calori

"Rechtzeitig zur Hannover Messe hat der Wiley-VCH Verlag das neue Buch von Prof. Dr. Detlef Stolten herausgebracht: Fuel Cell Science und Engineering. Nach Stoltens im Juli 2010 erschienenem Erstlingswerk Hydrogen und Fuel Cells - Fundamentals, Technologies und Applications (Hardcover, 880 S., 249 EUR) ist dies bereits sein zweites englisch-sprachiges Fachbuch zum Thema Wasserstoff und Brennstoffzelle. Auf 1.268 Seiten kommen in diesem zweibändigen Werk 50 ausgewiesene Experten aus aller Welt zu Wort und beleuchten das gesamte Brennstoffzellenspektrum. Das Handbuch betrachtet die verschiedenen Technologien, Materialien, Produktionsprozesse, Modellierungs- und Simulationsverfahren sowie wirtschaftliche, Umwelt- und Sicherheitsaspekte."
Hzwei - Das Magazin für Wasserstoff und Brennstoffzelle, Hydrogeit Verlag, 04/12