Keywords: هادی های مختلط; Mixed conductors; Oxygen semi-permeation; Membranes; Oxygen surface exchanges;
مقالات ISI هادی های مختلط (ترجمه نشده)
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Keywords: هادی های مختلط; Oxygen transport membrane; Mixed conductors; Microstructure; Oxygen surface exchange; Oxygen diffusion;
Transport properties of SrCo0.9Nb0.1O3-δ and SrCo0.9Ta0.1O3-δ mixed conductors determined by combined oxygen permeation measurement and phenomenological modeling
Keywords: هادی های مختلط; Oxygen permeation; Bulk diffusion; Surface exchange; Ionic conductivity; Mixed conductors;
On the synthesis and stability of La0.6Sr0.4Ga0.3Fe0.7O3
Keywords: هادی های مختلط; Mixed conductors; LSGF; Marcilly; Pechini; Stability;
AC/DC conductivity studies of composites of glassy electronic and ionic conductors
Keywords: هادی های مختلط; Phosphate glasses; Heterogeneous materials; All-glass composites; Mixed conductors; Impedance spectroscopy;
Oxygen nonstoichiometry and defect chemistry of perovskite-structured SrFe1 − xMoxO3 − δ solid solutions
Keywords: هادی های مختلط; Perovskite; Oxygen nonstoichiometry; Mixed conductors; Cathode; Defect equilibria
Defect chemistry and high-temperature transport in SrFe1−xSnxO3–δ
Keywords: هادی های مختلط; Mixed conductors; Perovskite; Sn-substituted strontium ferrite; Oxygen nonstoichiometry; Defect equilibria; Electron mobility
Synthesis, oxygen nonstoichiometry and total conductivity of (La,Sr)2(Mn,Ni)O4 ± δ
Keywords: هادی های مختلط; K2NiF4-type structure; Oxygen nonstoichiometry; Mixed conductors; Manganites–nickelates; p-type conductivity; Seebeck coefficient
High temperature crystal chemistry of the n = 3 Ruddlesden–Popper phase LaSr3Fe1.5Co1.5O10 − δ
Keywords: هادی های مختلط; LaSr3Co1.5Fe1.5O10 − δ; Ruddlesden–Popper phases; Neutron Powder Diffraction; Mixed conductors; SOFC cathodes
Oxygen permeability of mixed-conducting Ce0.8Tb0.2O2âδ membranes: Effects of ceramic microstructure and sintering temperature
Keywords: هادی های مختلط; Fluorite; Mixed conductors; Terbium doped ceria; Oxygen permeation membrane; Transference numbers;
CO2 and SO2 tolerant Fe-doped metal oxides for solid state gas sensors
Keywords: هادی های مختلط; Resistive CO2 sensors; SO2 sensors; Perovskites; Mixed conductors; Ba2Ca0.66Nb0.68Fe0.66O6 â δ (BCNF); BaMg0.33Nb0.34Fe0.33O3 â δ (BMNF);
Chemical reactivity between Ce0.7RE0.2Mo0.1O2 (REÂ =Â Y, Sm) and 8YSZ, and conductivity studies of their solid solutions
Keywords: هادی های مختلط; Mixed conductors; Ce0.7RE0.2Mo0.1O2 (REÂ =Â Y, Sm); Chemical reactivity; SOFC anodes; Electronic conductivity;
Electrochemical characterization of La0.6Ca0.4Fe0.8Ni0.2O3âδ perovskite cathode for IT-SOFC
Keywords: هادی های مختلط; Solid oxide fuel cell; Cathode; Electrochemical impedance spectroscopy; Mixed conductors;
Complete representation of isothermal mass and charge transport properties of mixed ionic electronic conductors
Keywords: هادی های مختلط; Mixed conductors; Mass and charge transport properties; Onsager matrix; Chemical polarization;
Chemical insertion in the perovskite solid solutions Pr0.5+x−yLi0.5−3xBiy□2xTiO3: Implications on the electrical properties
Keywords: هادی های مختلط; Lithium ion conductors; Mixed conductors; Chemical insertion; Impedance spectroscopy; Kramers–Kronig relations
Effects of Ga substitution on the high temperature properties of the n = 3 Ruddlesden Popper system LaSr3Fe1.5 − x/2Co1.5 − x/2GaxO10 − δ (0 ≤ x ≤ 0.8)
Keywords: هادی های مختلط; Mixed conductors; Ruddlesden Popper phases; Crystal structure; Thermal expansion; Solid oxide fuel cells
Cyclic voltammetry characterization of a La0.8Sr0.2Co0.2Fe0.8O3 − δ electrode interfaced to CGO/YSZ
Keywords: هادی های مختلط; Cyclic voltammetry; LSCF; Cathodes; Mixed conductors; Solid oxide fuel cells; SOFC
Electrical Properties of Fe-doped Perovskite-like BaNb0.75-xFexNa0.25O3-δ (0.05 < x < 0.5)
Keywords: هادی های مختلط; BaNb0.75-xFexNa0.25O3-δ; Perovskites; Mixed conductors; Chemical stability; Conductivity
Novel Nd2WO6-type Sm2−xAxM1−yByO6−δ (A = Ca, Sr; M = Mo, W; B = Ce, Ni) mixed conductors
Keywords: هادی های مختلط; Mixed conductors; SOFC anodes; Sm2−xAxM1−yByO6−δ (A = Ca, Sr; M = Mo, W; B = Ce, Ni); AC impedance; Blocking electrode
Preparation and characterization of La1−xSrxNiyFe1−yO3−δ cathodes for low-temperature solid oxide fuel cells
Keywords: هادی های مختلط; Solid oxide fuel cells; Cathode; Perovskite; Ferrites–nickelates; Mixed conductors
EMF measurements on mixed protonic/electronic conductors for hydrogen membrane applications
Keywords: هادی های مختلط; EMF; Proton conductors; Mixed conductors; Strontium cerate
Effect of Ti substitution for Nb in double perovskite-type Ba3CaNb2O9 on chemical stability and electrical conductivity
Keywords: هادی های مختلط; Ceramic proton conductors; Perovskites; Ba3CaNb1.75Ti0.25O9−δ; Chemical stability; PXRD; AC impedance; Mixed conductors
Evaluation of Ba0.6Sr0.4Co0.9Nb0.1O3−δ mixed conductor as a cathode for intermediate-temperature oxygen-ionic solid-oxide fuel cells
Keywords: هادی های مختلط; Perovskite; Cathode; Solid-oxide fuel cells; Mixed conductors
Ceria based mixed conductors with adjusted electronic conductivity in the bulk and/or along grain boundaries
Keywords: هادی های مختلط; Mixed conductors; Ceria; Fluorite; Transport number; Grain boundaries; Sintering additive
Rate limiting steps of the porous La0.6Sr0.4Co0.8Fe0.2O3−δ electrode material
Keywords: هادی های مختلط; Mixed conductors; Electrode reaction; Cobaltites; SOFC; Impedance spectroscopy
High-temperature transport and stability of SrFe1−xNbxO3 − δ
Keywords: هادی های مختلط; Mixed conductors; Strontium ferrite; Perovskite; Domain structure; Ion conductivity; Oxygen permeability
On Ba0.5Sr0.5Co1−yFeyO3−δ (y = 0.1–0.9) oxides as cathode materials for La0.9Sr0.1Ga0.8Mg0.2O2.85 based IT-SOFCs
Keywords: هادی های مختلط; SOFC; Cathode; BSCF; LSGM; Mixed conductors
Electrochemical behaviour of (La1 − xSrx)sCo1 − yNiyO3 − δ as porous SOFC cathodes
Keywords: هادی های مختلط; LSC; LSCN; SOFC cathode; Mixed conductors
Synthesis and study of the thermal stability of SrFe1 − xM xO3 − z (M = Mo, W) perovskites
Keywords: هادی های مختلط; Mixed conductors; Nonstoichiometric perovskites; Thermal stability
Cyclic voltammetry of La0.78Sr0.2FeO3−δ and La0.78Sr0.2Co0.2Fe0.8O3−δ electrodes interfaced to CGO/YSZ
Keywords: هادی های مختلط; Cyclic voltammetry; LSCF; LSF; Cathodes; Mixed conductors; Solid oxide fuel cells
Use of La0.75Sr0.25Cr0.5Mn0.5O3 materials in composite anodes for direct ethanol solid oxide fuel cells
Keywords: هادی های مختلط; Solid oxide fuel cell; Perovskite; Mixed conductors; Composite anode; Carbon deposition
Electrochemical behavior of ceria with selected metal electrodes
Keywords: هادی های مختلط; Electrode–electrolyte interface; Electrochemical oxidation; Ceria; Mixed conductors
Mixed conductivity, Mössbauer spectra and thermal expansion of (La,Sr)(Fe,Ni)O3 − δ perovskites
Keywords: هادی های مختلط; Perovskites; Mixed conductors; Ferrites–nickelates; Oxygen permeability; Phase relationships; p-Type electronic conductivity; Seebeck coefficient; Dilatometry
Systematic study of the structure of alternate pyromellitimide–PEO copolymers: Influence of the chain flexibility
Keywords: هادی های مختلط; Alternating copolymers; Semi-rigid polymers; Structure; Mixed conductors
Performance of XSCoF (X = Ba, La and Sm) and LSCrX′ (X′ = Mn, Fe and Al) perovskite-structure materials on LSGM electrolyte for IT-SOFC
Keywords: هادی های مختلط; SOFC; Symmetric fuel cells; Mixed conductors; MIEC; Polarisation resistance; Fuel cell tests; LSGM
High temperature properties of the n = 2 Ruddlesden–Popper phases (La,Sr)3(Fe,Ni)2O7−δ
Keywords: هادی های مختلط; Mixed conductors; Ruddlesden–Popper phases; Oxygen non-stoichiometry; Electrical conductivity; Oxygen permeation
Template synthesis of M/M2S (M = Ag, Cu) hetero-nanowires by electrochemical technique
Keywords: هادی های مختلط; Mixed conductors; Template synthesis; Nanowires; Electrochemistry; Electrical switching
Composite Ni–Ba(Zr0.1Ce0.7Y0.2)O3 membrane for hydrogen separation
Keywords: هادی های مختلط; BaZr0.1Ce0.7Y0.2O3; Hydrogen separation; Mixed conductors; Permeation; Stability; Proton conductor
Electrochemical characterization of mixed conducting and composite SOFC cathodes
Keywords: هادی های مختلط; Cathodes; Composite electrodes; Mixed conductors; Perovskites; Solid oxide fuel cells;
Combinatorial searching for novel mixed conductors
Keywords: هادی های مختلط; Combinatorial methods; Mixed conductors; SOFC cathodes; Isotopic exchange
Electrode reaction of Sr1−xLaxCo0.8Fe0.2O3−δ with x = 0.1 and 0.6 on Ce0.9Gd0.1O1.95 at 600 ≤ T ≤ 800 °C
Keywords: هادی های مختلط; Mixed conductors; Electrode reaction; Cobaltites; SOFC; Impedance spectroscopy
Oxygen ion conductors for fuel cells and membranes: selected developments
Keywords: هادی های مختلط; Oxygen ion conductors; Apatites; Mixed conductors; Oxide composites
Neutron powder diffraction study of the influence of high oxygen pressure treatments on La2NiO4+δ and structural analysis of La2Ni1âxCuxO4+δ (0 â¤Â x â¤Â 1)
Keywords: هادی های مختلط; Neutron powder diffraction; Interstitial oxygen defect; K2NiF4 structures; Mixed conductors;
Mechanosynthesis of complex oxides with fluorite and perovskite-related structures and their sintering into nanocomposites with mixed ionic-electronic conductivity
Keywords: هادی های مختلط; Mechanosynthesis; Dual-phase nanocomposites; Mixed conductors;
High-temperature thermodynamic and transport properties of the Sr3Fe2O6+δSr3Fe2O6+δ mixed conductor
Keywords: هادی های مختلط; Mixed conductors; Ruddlesden–Popper phases; Thermodynamic properties; Partial molar properties; Defect structure; Electrical conductivity; Small polaron
X-ray diffraction studies of perovskite or derived perovskite phase formation
Keywords: هادی های مختلط; Mixed conductors; Perovskite oxides; Phase transformation; Nanocrystalline materials; X-ray diffraction;
On the Soret effect in binary nonstoichiometric oxides-kinetic demixing of cuprite in a temperature gradient
Keywords: هادی های مختلط; Soret effect; Thermodiffusion; Mixed conductors; Degradation; Diffusion;