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Ceramic fuel cells | 3 | |
Worldwide SOFC technology overview and benchmark | 29 | |
Ceramic fuel cells for stationary and mobile applications | 41 | |
SOFCs - too hot to handle? | 51 | |
U.S. Department of Energy's solid oxide fuel cells : technical advances | 55 | |
Solid oxide fuel cell development at Forschungszentrum Juelich | ||
Solid oxide fuel cells : technology status | 71 | |
SOFCo planar solid oxide fuel cell | 83 | |
Solid-state ionics : roots, status, and future prospects | 91 | |
Manufacturing solid oxide fuel cells for the sulzer hexis stationary system | 119 | |
Low-cost manufacturing processes for solid oxide fuel cells | 129 | |
Manufacturing routes and state-of-the-art of the planar Julich anode-supported concept for solid oxide fuel cells | 137 | |
Fabrication and properties of an anode-supported tubular IT-SOFC based on lanthanum gallate | 147 | |
Single-step co-firing technique for SOFC fabrication | 155 | |
The co-sintering of electrode and electrolyte layered structures for SOFC applications | 163 | |
Materials and microstructures for improved solid oxide fuel cells | 171 | |
Design criteria for SOFC generators | 179 | |
Novel composite electrolytes for solid oxide fuel cell applications | 191 | |
Lanthanum gallate electrolyte for intermediate-temperature SOFC operation | 199 | |
Development of solid oxide fuel cell anodes using metal-coated pore-forming agents | 207 | |
High purity H[subscript 2]/H[subscript 2]O/nickel/stabilized zirconia electrodes at 500[degrees]C | 213 | |
Impregnation of nickel foils with nanocrystalline ceria as anodes for solid oxide fuel cells | 223 | |
Study of praseodyium strontium manganite for the potential use as a solid oxide fuel cell cathode | 231 | |
Chromium poisoning effects on various cathodes | 239 | |
Single chamber solid oxide fuel cell-investigation of cathodes | 249 | |
Microstructure and electroconductivity studies of (La,Sr)(Cr,Mn,Co)O[subscript 3] | 255 | |
Microstructure-performance relationships in LSM-YSZ cathodes | 263 | |
Role of cathode in single-chamber SOFC | 269 | |
Lanthanum chromite-based interconnects as key materials for SOFC stack development | 277 | |
Structural characterization of lanthanum chromite perovskite coating deposited by magnetron sputtering on an iron-based chromium-containing alloy as a promising interconnect material for SOFCs | 285 | |
Surface modification on ferritic and Ni based alloys for improved oxidation resistance in SOFC applications | 293 | |
Ferritic stainless steel SOFC interconnects with thermally grown (Mn,Co)[subscript 3]O[subscript 4] spinel protection layers | 301 | |
Chemical reaction behavior between glass-ceramic sealants and high chromium ferritic steels under various SOFC conditions | 309 | |
Electrical contacts between cathodes and metallic interconnects in solid oxide fuel cells | 317 | |
Evaluation of sealing glasses for solid oxide fuel cells | 327 | |
Suitable glass-ceramic sealant for planar solid-oxide fuel cells | 335 | |
Glass-ceramic materials of the system BaO-CaO-SiO[subscript 2] as sealants for SOFC applications | 343 | |
Layered composite seals for solid oxide fuel cells (SOFC) | 351 | |
Development of amorphous, non-oxide seals for solid oxide fuel cells | 361 | |
Alternative methods of sealing planar solid oxide fuel cells | 367 | |
Glass mica composite seals for solid oxide fuel cells | 377 | |
Long-term thermal cycling of phlogopite mica-based compressive seals for solid oxide fuel cells | 385 | |
Mechanical properties of SOFC seal glass composites | 397 | |
Fracture energies of brittle sealants for planar solid oxide fuel cells | 407 | |
Failure probability of solid oxide fuel cells | 415 | |
A numerical simulation tool for fracture analysis in solid oxide fuel cells | 421 | |
Strength and fracture toughness of YSZ/alumina composites for solid oxide fuel cells | 429 | |
Elastic properties of nickel-based anodes for solid oxide fuel cells as a function of the fraction of reduced NiO | 439 | |
Elastic properties, blaxial strength, and fracture toughness of nickel-based anode materials for solid oxide fuel cells | 445 | |
Effect of hydrogen reduction on the microstructure and elastic properties of Ni-based anodes for SOFCs | 455 | |
Electrochemical characterization of vacuum plasma sprayed planar solid oxide fuel cells and short stacks for mobile application | 467 | |
Single cell testing and performance analysis of planar solid oxide fuel cells | 475 | |
Long-term SOFC stability with coated ferritic stainless steel interconnect | 483 | |
Effects of the use of pore formers on performance of an anode-supported solid oxide fuel cells | 491 | |
Formation of secondary phases at the interface between strontium-doped lanthanum manganite and yttria-stabilized zirconia | 497 | |
Development of a tri-layer electrochemical model for a solid oxide fuel cell | 507 | |
Multilayered ceramic reactor for the stream reforming of methanol into hydrogen-enriched gas | 515 | |
Activity and structure of perovskites as diesel reforming catalysts for solid oxide fuel cell | 525 |
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Add Progress in Solid Oxide Fuel Cells, This work provides a collection of current research papers including valuable insights on materials-related aspects of solid-oxide fuel cells current status, processing and fabrication, various electrolytes, anodes, and cathodes, ceramic/metal interconnec, Progress in Solid Oxide Fuel Cells to the inventory that you are selling on WonderClubX
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Add Progress in Solid Oxide Fuel Cells, This work provides a collection of current research papers including valuable insights on materials-related aspects of solid-oxide fuel cells current status, processing and fabrication, various electrolytes, anodes, and cathodes, ceramic/metal interconnec, Progress in Solid Oxide Fuel Cells to your collection on WonderClub |