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Fragment-based Lead Discovery Conference 2008
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10th Small Fuel Cells
Portable & Micro Fuel Cells for Commercial & Military Applications
| Type | Conference Exposition |
|---|---|
| Language | English |
| Date |
April 30, 2008
to May 2, 2008 |
| Venue |
Omni Hotel at CNN Center Atlanta, GA US |
| Chemistry Specialties |
|
| Chemistry Techniques |
|
| Contact |
David Mello The Knowledge Foundation 18 Webster St. Brookline, MA 02446 US 617-232-7400 X203 617-232-9171 dmello@knowledgefoundation.com |
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In its 10th year, Small Fuel Cells for Commercial & Military Applications is the primary source of information for end users, developers and manufacturers of portable power devices. With a special pre-conference 1-Day Symposium on building synergy between fuel cells and lithium ion batteries, an impressive lineup of speakers from around the world, and industry leaders exhibiting the latest technologies, this year's conference is not to be missed. Just a few of the presenting organizations include: Motorola, Samsung, Sony Corporation, U.S. Army, and The U.S. Department of Energy.
Speakers
- Sukhvinder P.S. Badwal, PhD, CSIRO Energy Technology
- H. Scott Coombe, PhD, PE, U.S. Army
- Philip Cox, PhD, PolyFuel Inc.
- Aaron Crumm, PhD, Adaptive Materials Inc.
- Dave Edlund, PhD, Protonex Technology Corporation
- Allison M. Fisher, PhD, Motorola
- Tom Fuller, PhD, Georgia Institute of Technology
- Shuji Goto, Sony Corporation
- Christopher Hebling, PhD, Fraunhofer Institute for Solar Energy Systems
- Erik Kjeang, PhD, Institute for Integrated Energy Systems
- Michael Krausa, PhD, Fraunhofer Institute for Chemical Technology
- Carl Kukkonen, PhD, Direct Methanol Fuel Cell Corporation
- Hanwei Lei, PhD, Cabot Corporation
- Arumugam Manthiram, PhD, The University of Texas at Austin
- Jens Müller, PhD, SFC Smart Fuel Cell AG
- Kirt A. Page, PhD, National Institute of Standards and Technology
- Terry Payne, PhD, PE, U.S. Department of Energy
- Hanna Rajantie, PhD, Johnson Matthey
- Jennifer L.M. Rupp, PhD, ETH Zurich
- Eric Simpkins, IdaTech, LLC
- Inseob Song, PhD, Samsung SDI Co, Ltd.
- Vesna Stanic, PhD, EnerFuel, Inc.
- Detlef Stolten, Dr-Ing, Jülich Forschungszentrum
- Björn Westerholm, myFC AB
- Michael Zelinsky, Ovonic Hydrogen Systems LLC
- H. Scott Coombe, PhD, PE, U.S. Army
- Philip Cox, PhD, PolyFuel Inc.
- Aaron Crumm, PhD, Adaptive Materials Inc.
- Dave Edlund, PhD, Protonex Technology Corporation
- Allison M. Fisher, PhD, Motorola
- Tom Fuller, PhD, Georgia Institute of Technology
- Shuji Goto, Sony Corporation
- Christopher Hebling, PhD, Fraunhofer Institute for Solar Energy Systems
- Erik Kjeang, PhD, Institute for Integrated Energy Systems
- Michael Krausa, PhD, Fraunhofer Institute for Chemical Technology
- Carl Kukkonen, PhD, Direct Methanol Fuel Cell Corporation
- Hanwei Lei, PhD, Cabot Corporation
- Arumugam Manthiram, PhD, The University of Texas at Austin
- Jens Müller, PhD, SFC Smart Fuel Cell AG
- Kirt A. Page, PhD, National Institute of Standards and Technology
- Terry Payne, PhD, PE, U.S. Department of Energy
- Hanna Rajantie, PhD, Johnson Matthey
- Jennifer L.M. Rupp, PhD, ETH Zurich
- Eric Simpkins, IdaTech, LLC
- Inseob Song, PhD, Samsung SDI Co, Ltd.
- Vesna Stanic, PhD, EnerFuel, Inc.
- Detlef Stolten, Dr-Ing, Jülich Forschungszentrum
- Björn Westerholm, myFC AB
- Michael Zelinsky, Ovonic Hydrogen Systems LLC
Session titles
- Department of Energy Polymer Electrolyte Membrane (PEM) Fuel Cell R&D Activities
- Portable Warfighter Power Technology
- Reformed-Methanol PEMFC Systems: Advancing Toward Commercialization
- Direct Ethanol Fuel Cells: An Emerging Technology with Reduced Logistic Footprint for Military and Civil Applications
- Micro Fuel Cell System for Mobile Consumer Electronic Devices
- Mobile DMFC : Enhancement of Stack and System Stability
- Creating a Global Fuel Cartridge Manufacturing and Distribution Infrastructure
- ONEBAT: Micro-Solid Oxide Fuel Cells for Battery Replacement in Portable Electronics
- Adaptive Materials and Portable SOFCs: Military Applications
- Methodology for Robust Design of Small Fuel Cell Systems: Application to Unmanned Aerial Vehicles
- Fabrication of 3D Micro Fuel Cells for Cell Phones
- Development of Micro-Fuel Cells Using Carbon Monoliths
- From Concept to Product - Development and Scale-Up Production Implementation for myFC’s FuelCellSticker™ Technology
- Technological Advancement vs. Platinum Cost Optimization Paradigm for DMFC
- Passively Operated Vapor-Fed Direct Methanol Fuel Cells for Portable Applications
- The Crucial Step: From Prototypes to Commercial Product
- Advances in Hydrocarbon Membrane Development
- Low Cost Membrane and Catalyst Development for Portable Fuel Cells
- Advanced DMFC Electrocatalyst for Portable Applications
- Military Fuel Cells for Tactical Power Generation and Battery Charging
- Remote Surveillance System Powered by PEM Fuel Cell
- Molecular Relaxations and Morphology of Perfluorosulfonate Ionomers for Fuel Cell Applications
- Development of Direct Hydrogen Micro Fuel Cell Technology
- Rechargeable, Low-Pressure, High-Density Hydrogen Storage for Portable Fuel Cells
- A Microfluidic Fuel Cell with Flow-Through Porous Electrodes
- Portable Warfighter Power Technology
- Reformed-Methanol PEMFC Systems: Advancing Toward Commercialization
- Direct Ethanol Fuel Cells: An Emerging Technology with Reduced Logistic Footprint for Military and Civil Applications
- Micro Fuel Cell System for Mobile Consumer Electronic Devices
- Mobile DMFC : Enhancement of Stack and System Stability
- Creating a Global Fuel Cartridge Manufacturing and Distribution Infrastructure
- ONEBAT: Micro-Solid Oxide Fuel Cells for Battery Replacement in Portable Electronics
- Adaptive Materials and Portable SOFCs: Military Applications
- Methodology for Robust Design of Small Fuel Cell Systems: Application to Unmanned Aerial Vehicles
- Fabrication of 3D Micro Fuel Cells for Cell Phones
- Development of Micro-Fuel Cells Using Carbon Monoliths
- From Concept to Product - Development and Scale-Up Production Implementation for myFC’s FuelCellSticker™ Technology
- Technological Advancement vs. Platinum Cost Optimization Paradigm for DMFC
- Passively Operated Vapor-Fed Direct Methanol Fuel Cells for Portable Applications
- The Crucial Step: From Prototypes to Commercial Product
- Advances in Hydrocarbon Membrane Development
- Low Cost Membrane and Catalyst Development for Portable Fuel Cells
- Advanced DMFC Electrocatalyst for Portable Applications
- Military Fuel Cells for Tactical Power Generation and Battery Charging
- Remote Surveillance System Powered by PEM Fuel Cell
- Molecular Relaxations and Morphology of Perfluorosulfonate Ionomers for Fuel Cell Applications
- Development of Direct Hydrogen Micro Fuel Cell Technology
- Rechargeable, Low-Pressure, High-Density Hydrogen Storage for Portable Fuel Cells
- A Microfluidic Fuel Cell with Flow-Through Porous Electrodes