Formulating liquid ethers for microtubular solid oxide fuel cells

Physics & Astronomy

• solid oxide fuel cells 99%
• ethers 94%
• anodes 72%
• liquids 45%
• carbon 35%
• molecules 34%
• internal combustion engines 29%
• methane 29%
• liquid fuels 29%
• nickel 25%
• methyl alcohol 21%
• damage 15%
• formates 14%
• kerosene 14%
• diesel engines 13%
• octanes 13%
• degeneration 13%
• cermets 13%
• carbon monoxide 12%
• yttria-stabilized zirconia 11%
• entry 11%
• upstream 10%
• hydrocarbons 10%
• proposals 9%
• acids 9%
• tendencies 9%
• injection 7%
• formulations 7%
• electrodes 6%
• hydrogen 6%
• air 6%
• water 6%
• cells 5%

Engineering & Materials Science

• Ethers 100%
• Solid oxide fuel cells (SOFC) 92%
• Anodes 82%
• Molecules 62%
• Liquids 56%
• Carbon 40%
• Methane 29%
• Nickel 29%
• Liquid fuels 24%
• Methanol 21%
• Internal combustion engines 20%
• Yttria stabilized zirconia 14%
• Kerosene 12%
• Cermets 12%
• Reforming reactions 11%
• Carbon monoxide 11%
• Acids 9%
• Hydrocarbons 9%
• Diesel engines 9%
• Hydrogen 8%
• Electrodes 8%
• Air 5%
• Water 5%
• Testing 5%

Chemistry

• Fuel 70%
• Anode 62%
• Ether 58%
• Liquid 46%
• Internal Combustion Engine 32%
• Methane 25%
• Molecule 22%
• Carbon Atom 15%
• Methyl Formate 14%
• Cermet 13%
• Methanol 12%
• Kerosene 12%
• Octane 11%
• Carbon Monoxide 9%
• Drop 9%
• Hydrocarbon 7%
• Hydrogen 5%
• Behavior as Electrode 5%
• Acid 3%