A perspective on low-temperature solid oxide fuel cells
This article provides a perspective on solid oxide fuel cells operating at low temperature,
defined here to be the range from∼ 400° C to 650° C. These low-temperature solid oxide …
defined here to be the range from∼ 400° C to 650° C. These low-temperature solid oxide …
Ultrahigh oxygen permeation flux through supported Ba0. 5Sr0. 5Co0. 8Fe0. 2O3− δ membranes
Oxygen transport membranes made of Ba 0.5 Sr 0.5 Co 0.8 Fe 0.2 O 3− δ (BSCF) were
manufactured by tape casting and co-firing. The disk-shaped membranes consisted of a top …
manufactured by tape casting and co-firing. The disk-shaped membranes consisted of a top …
In Situ Growth of Nanoparticles in Layered Perovskite La0.8Sr1.2Fe0.9Co0.1O4−δ as an Active and Stable Electrode for Symmetrical Solid Oxide Fuel Cells
Compared to traditional deposition techniques, in situ growth of nanoparticles on material
surfaces is one of the more time-and cost-effective ways to design new catalysts. The B-site …
surfaces is one of the more time-and cost-effective ways to design new catalysts. The B-site …
Functional nanoceramics for intermediate temperature solid oxide fuel cells and oxygen separation membranes
V Sadykov, V Usoltsev, N Yeremeev… - Journal of the European …, 2013 - Elsevier
This work reviews results of research aimed at design and characterization of mixed ionic–
electronic conducting perovskite–fluorite nanocomposite oxide ceramics. Nanocrystalline …
electronic conducting perovskite–fluorite nanocomposite oxide ceramics. Nanocrystalline …
Oxygen permeation through tape-cast asymmetric all-La0. 6Sr0. 4Co0. 2Fe0. 8O3− δ membranes
One of the most promising materials for oxygen separation amongst ceramic oxygen
transport membranes (OTMs) is La 0.6 Sr 0.4 Co 0.2 Fe 0.8 O 3− δ (LSCF) due to its …
transport membranes (OTMs) is La 0.6 Sr 0.4 Co 0.2 Fe 0.8 O 3− δ (LSCF) due to its …
Electrochemical stability of La0. 6Sr0. 4Co0. 2Fe0. 8O3− δ-infiltrated YSZ oxygen electrode for reversible solid oxide fuel cells
H Fan, M Keane, N Li, D Tang, P Singh… - International Journal of …, 2014 - Elsevier
Abstract La 0.6 Sr 0.4 Co 0.2 Fe 0.8 O 3− δ (LSCF)-YSZ (yttria stabilized zirconia) oxygen
electrodes were developed by an infiltration process for reversible solid oxide fuel cells …
electrodes were developed by an infiltration process for reversible solid oxide fuel cells …
Structural–Transport Properties Relationships on Ce1–xLnxO2−δ System (Ln = Gd, La, Tb, Pr, Eu, Er, Yb, Nd) and Effect of Cobalt Addition
A large series of doped cerias have been prepared by the coprecipitation method combined
with impregnation and completely characterized in order to have an overall understanding of …
with impregnation and completely characterized in order to have an overall understanding of …
Effects of Co Doping on the Electrochemical Performance of Double Perovskite Oxide Sr2MgMoO6−δ as an Anode Material for Solid Oxide Fuel Cells
Double-perovskite materials of composition Sr2Mg1–x Co x MoO6− δ (SMCMO, x= 0 to 0.7)
were evaluated as potential SOFC anode materials. Their lattice structures, electrical and …
were evaluated as potential SOFC anode materials. Their lattice structures, electrical and …
Multilayered ceramic membrane with ion conducting thin layer induced by interface reaction for stable hydrogen production
G He, Q Lan, M Liu, G Wu… - Angewandte …, 2023 - Wiley Online Library
Conventional methods for fabricating multilayered ceramic membranes with ion conducting
dense thin layers are often cumbersome, costly, and limited by poor adhesion between …
dense thin layers are often cumbersome, costly, and limited by poor adhesion between …
Syngas production at intermediate temperature through H2O and CO2 electrolysis with a Cu-based solid oxide electrolyzer cell
Abstract Solid Oxide Electrolyzer Cells (SOECs) are promising energy devices for the
production of syngas (H 2/CO) by H 2 O and/or CO 2 electrolysis. Here we developed a Cu …
production of syngas (H 2/CO) by H 2 O and/or CO 2 electrolysis. Here we developed a Cu …