Fuel Cell Technology
Whereas the 19th century was the century of the steam engine and the 20th century was the century of the internal combustion engine, it is likely that the 21st century will be the century of the fuel cell. Full cells are now on the verge of being introduced commercially, revolutionizing the way we presently produce power. Fuel cells can use hydrogen as a fuel, offering the prospect of supplying the world with clean, sustainable electrical power. This Track discusses the history of fuel cells, fuel cells for NASA, alkaline fuel cells for terrestrial applications and PEM fuel cells. Fuel cell applications in transportation, distributed power generation, residential and portable power are discussed. The science of the PEM fuel cell and the direct methanol fuel cell will be discussed.
- Advances in Fuel Cells
- Alkaline Fuel Cells
- Proton Exchange Membrane Fuel Cells
- Fuel Cell Vehicles
- Space Vehicle Power Plants
- Distributed Power Generation
Related Conference of Fuel Cell Technology
September 14-15, 2026
39th International Conference on Materials Science and Engineering
Rome, Italy
September 14-15, 2026
12th International Conference and Expo on Ceramics and Composite Materials
Rome, Italy
September 21-22, 2026
24th International Conference and Exhibition on Materials Science and Chemistry
Barcelona, Spain
Fuel Cell Technology Conference Speakers
Recommended Sessions
- Advanced Materials for Energy
- Advanced Nanomaterials
- Advanced Solar Energy Materials
- Advances in Materials Science and Engineering
- Batteries and Energy Storage
- Biomaterials and Surface Science Engineering
- Electric, Hybrid, and Fuel-Cell Vehicles
- Electrical, Optical and Magnetic Materials
- Emerging Materials in Nanotechnology
- Energy Harvesting Materials
- Fuel Cell Market Introduction
- Fuel Cell Materials, Methods and Manufacture
- Fuel Cell Technology
- Graphene and 2D Energy Materials
- Green Energy Materials
- Hydrogen Economy and Alternative Fuels
Related Journals
Are you interested in
- Additive Manufacturing – 3D Printed Materials - Ceramics 2026 (Italy)
- Additive Manufacturing – 3D Printing - Material science-2026 (Italy)
- Advanced Ceramics – High Performance - Ceramics 2026 (Italy)
- Bio-Ceramics – Healthcare Innovations - Ceramics 2026 (Italy)
- Biomaterials – Healthcare Innovations - Material science-2026 (Italy)
- Carbon Nanostructures and Graphene - Materials Chemistry 2026 (Spain)
- Ceramic Coatings – Wear & Thermal Protection - Ceramics 2026 (Italy)
- Ceramic-Polymer Hybrids – Multifunctional Materials - Ceramics 2026 (Italy)
- Ceramics in Materials Science - Materials Chemistry 2026 (Spain)
- Ceramics – High-Performance Materials - Material science-2026 (Italy)
- Chemical Engineering - Materials Chemistry 2026 (Spain)
- Composites – Lightweight & Strong - Material science-2026 (Italy)
- Computational Materials – Modeling & Simulation - Material science-2026 (Italy)
- Energy & Electronic Materials – Functional Ceramics - Ceramics 2026 (Italy)
- Energy Materials – Batteries & Storage - Material science-2026 (Italy)
- Fracture, Fatigue and Failure of Materials - Materials Chemistry 2026 (Spain)
- Functional Nanostructures – Design & Fabrication - Material science-2026 (Italy)
- Functionally Graded Materials – Tailored Properties - Ceramics 2026 (Italy)
- Industrial applications of crystallization - Materials Chemistry 2026 (Spain)
- Material Characterization – Testing & Analysis - Material science-2026 (Italy)
- Materials Science and Chemistry - Materials Chemistry 2026 (Spain)
- Metal Alloys – Strength & Durability - Material science-2026 (Italy)
- Metal Matrix Composites – Strength & Durability - Ceramics 2026 (Italy)
- Mineralogy - Materials Chemistry 2026 (Spain)
- Nano pharmaceuticals - Materials Chemistry 2026 (Spain)
- Nanocomposites – Functional Applications - Ceramics 2026 (Italy)
- Nanodentistry - Materials Chemistry 2026 (Spain)
- Nanomaterials – Advanced Applications - Material science-2026 (Italy)
- Nanotechnology Applications - Materials Chemistry 2026 (Spain)
- Photonic and Optical Materials - Materials Chemistry 2026 (Spain)
- Photonic Materials – Optical & Electronics - Material science-2026 (Italy)
- Polymer Composites – Lightweight Solutions - Ceramics 2026 (Italy)
- Polymer Science and Applications - Materials Chemistry 2026 (Spain)
- Polymers – Functional & Smart Designs - Material science-2026 (Italy)
- Reinforced Composites – Strength Optimization - Ceramics 2026 (Italy)
- Science and Technology of Advanced Materials - Materials Chemistry 2026 (Spain)
- Smart Materials – Responsive & Adaptive - Material science-2026 (Italy)
- Solid-State Chemistry and Physics - Materials Chemistry 2026 (Spain)
- Structural Composites – Aerospace & Automotive - Ceramics 2026 (Italy)
- Sustainable Ceramics – Eco-Friendly Materials - Ceramics 2026 (Italy)
- Sustainable Materials – Eco-Friendly Solutions - Material science-2026 (Italy)
- Thermal Barrier Materials – High-Temperature Performance - Ceramics 2026 (Italy)
- Thin Films – Coatings & Surface Engineering - Material science-2026 (Italy)
- Tissue Engineering - Materials Chemistry 2026 (Spain)
- Wear-Resistant Composites – Industrial Applications - Ceramics 2026 (Italy)