Keywords: گسترش شیمیایی; Strain; Oxygen vacancies; Density functional theory; Chemical expansion; Interfaces
مقالات ISI گسترش شیمیایی (ترجمه نشده)
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H/D isotope effect for hydrogen solubility in BaZr0.9Y0.1O3-δ: Chemical expansion studies
Keywords: گسترش شیمیایی; Proton-conducting oxide; BaZrO3; H/D isotope effect; Hydrogen solubility; Chemical expansion; Dilatometry;
Chemically induced volume change of CeO2 â δ and nonstoichiometric phases
Keywords: گسترش شیمیایی; CeO2; Thermal expansion coefficient; Chemical expansion;
Enhanced reducibility and electronic conductivity of Nb or W doped Ce0.9Gd0.1O1.95 − δ
Keywords: گسترش شیمیایی; Ceria; Oxygen permeation; SOFC anode; Mixed electronic ionic conductivity; Chemical expansion
Size and shape of oxygen vacancies and protons in acceptor-doped barium zirconate
Keywords: گسترش شیمیایی; BaZrO3; Density-functional theory; Oxygen vacancy; Proton; Chemical expansion; Hydration;
Chemical and structural changes in Ln2NiO4+δ (Ln=La, Pr or Nd) lanthanide nickelates as a function of oxygen partial pressure at high temperature
Keywords: گسترش شیمیایی; Lanthanide nickelates; Chemical stability; low pO2; Shrinkage; Thermal expansion coefficient; Chemical expansion
Expansion behaviour of (Gd, Pr)-substituted CeO2 in dependence on temperature and oxygen partial pressure
Keywords: گسترش شیمیایی; Substituted ceria; Chemical expansion; Thermal expansion; Oxygen release; Dilatometry; Praseodymium gadolinium
Insights on thermal and transport features of BaCe0.8âxZrxY0.2O3âδ proton-conducting materials
Keywords: گسترش شیمیایی; Proton-conducting electrolytes; BaCeO3; BaZrO3; Ionic conductivity; Chemical expansion; Thermal expansion;
Defect structure and defect-induced expansion of doped perovskite La0.7Sr0.3Co0.9Fe0.1O3âδ
Keywords: گسترش شیمیایی; Chemical expansion; Defect structure; MIEC; Oxygen nonstoichiometry; Thermal expansion; Perovskite;
Thermochemical expansion of mixed-conducting (Ba,Sr)Co0.8Fe0.2O3âδ ceramics
Keywords: گسترش شیمیایی; Thermal expansion; Chemical expansion; Oxygen nonstoichiometry; Membrane; SOFC cathode;
Thermochemical behavior and transport properties of Pr-substituted SrTiO3 as potential solid oxide fuel cell anode
Keywords: گسترش شیمیایی; Strontium titanate; SOFC anode; Electrical conductivity; Thermal expansion; Chemical expansion; Stability;
Mixed conductivity, thermochemical expansion and electrochemical activity of Fe-substituted (La,Sr)(Cr,Mg)O3âδ for solid oxide fuel cell anodes
Keywords: گسترش شیمیایی; Lanthanum chromite; Ionic conductivity; Chemical expansion; Oxygen nonstoichiometry; Electrode polarization; SOFC anode;
Thermo-chemical lattice expansion in La0.6Sr0.4Co1 − yFeyO3 − δ
Keywords: گسترش شیمیایی; SOFC; Cathode; LSCF; Thermal expansion; Chemical expansion
Functional properties of SOFC anode materials based on LaCrO3, La(Ti,Mn)O3 and Sr(Nb,Mn)O3 perovskites: A comparative analysis
Keywords: گسترش شیمیایی; Oxide anode; Intermediate-temperature SOFCs; Electrode polarization; Electronic conductivity; Chemical expansion; Controlled-atmosphere dilatometry
In situ X-ray and neutron diffraction of the Ruddlesden–Popper compounds (RE2−xSrx)0.98(Fe0.8Co0.2)1−yMgyO4−δ (RE=La, Pr): Structure and CO2 stability
Keywords: گسترش شیمیایی; Ruddlesden–Popper; In-situ neutron diffraction; Rietveld refinement; Thermal expansion; Chemical expansion; CO2 reactivity
Consistency in the chemical expansion of fluorites: A thermal revision of the doped ceria
Keywords: گسترش شیمیایی; Chemical expansion; Non-stoichiometric oxides; Ceria; Elastic lattice strain
Elaboration of La1−xSrxFe1−yGayO3−δ multilayer membranes by tape casting and co-firing for syngas application
Keywords: گسترش شیمیایی; Multilayer membrane; Co-firing; Oxygen semi-permeation; Chemical expansion; Chemical stability
Praseodymium doped ceria: Model mixed ionic electronic conductor with coupled electrical, optical, mechanical and chemical properties
Keywords: گسترش شیمیایی; Mixed conductor; SOFC; Cathode; Chemical expansion; Optical absorption; Nonstoichiometry;
Comparison of Y and La-substituted SrTiO3 as the anode materials for SOFCs
Keywords: گسترش شیمیایی; Ceramic; Solid oxide fuel cells; Anode material; Electrical conductivity; Chemical expansion;
Crystal structure, chemical expansion and phase stability of HoMnO3 at high temperature
Keywords: گسترش شیمیایی; RMnO3; Multiferroic; Chemical expansion; Phase transition; Point defects;
Effect of nickel substitution on defect chemistry, electrical properties, and dimensional stability of calcium-doped yttrium chromite
Keywords: گسترش شیمیایی; Doped yttrium chromite; Defect model; Electrical conductivity; Chemical expansion
Thermal and chemical lattice expansibility of La0.6Sr0.4Co1 − yFeyO3 − δ (y = 0.2, 0.4, 0.6 and 0.8)
Keywords: گسترش شیمیایی; SOFC; Cathode; LSCF; Thermal expansion; Chemical expansion
High performance ceramic interconnect material for solid oxide fuel cells (SOFCs): Ca- and transition metal-doped yttrium chromite
Keywords: گسترش شیمیایی; Doped yttrium chromite; SOFC interconnect; Sintering; Chemical expansion; Electrical conductivity;
Synthesis and oxygen content dependent properties of hexagonal DyMnO3+δ
Keywords: گسترش شیمیایی; Hexagonal manganites; Structural properties; Thermal expansion; Chemical expansion; Non-stoichiometric oxygen content
Chemical expansion of La0.8Sr0.2Fe0.7Ga0.3O3–δ
Keywords: گسترش شیمیایی; Chemical expansion; Ceramic mixed ionic and electronic Conductors; Perovskite; Catalytic membrane reactor; Synthesis gas
Oxygen nonstoichiometry, thermo-chemical stability and lattice expansion of La0.6Sr0.4FeO3 − δ
Keywords: گسترش شیمیایی; Strontium doped lanthanum ferrite; Oxygen nonstoichiometry; High-temperature X-ray diffractometry; Chemical expansion
Oxygen stoichiometry and expansion behavior of Ba0.5Sr0.5Co0.8Fe0.2O3 − δ
Keywords: گسترش شیمیایی; BSCF; Oxygen stoichiometry; Chemical expansion; Mixed conductor; Perovskites; Defect chemistry
Oxygen nonstoichiometry, defect structure and defect-induced expansion of undoped perovskite LaMnO3 ± δ
Keywords: گسترش شیمیایی; Lanthanum manganite; Oxygen nonstoichiometry; Defect structure; Chemical expansion; Defect-induced expansion
Defect equilibria and chemical expansion in non-stoichiometric undoped and gadolinium-doped cerium oxide
Keywords: گسترش شیمیایی; Ceria; Defect equilibria; Chemical expansion; Thermogravimetry; Defect association
Elaboration of La0.8Sr0.2Fe0.7Ga0.3O3−δ/La0.8M0.2FeO3−δ (M = Ca, Sr and Ba) asymmetric membranes by tape-casting and co-firing
Keywords: گسترش شیمیایی; Asymmetric membrane; Co-firing; Oxygen permeation; Chemical expansion; Catalytic membrane reactor
Loading path effect on the chemical expansion in substoichiometric LSF based perovskite
Keywords: گسترش شیمیایی; Chemical expansion; Thermal expansion; Membranes; Ceramic mixed ionic conductor; Perovskite;
Surface and bulk oxygen non-stoichiometry and bulk chemical expansion in gadolinium-doped cerium oxide
Keywords: گسترش شیمیایی; Ceria; Defect equilibria; Chemical expansion; Thermogravimetry; Surface chemistry
Defect structure and defect-induced expansion of undoped oxygen deficient perovskite LaCoO3−δ
Keywords: گسترش شیمیایی; Lanthanum cobaltite; Oxygen nonstoichiometry; Chemical expansion; Defect-induced expansion; Defect structure; Dilatometry
Oxygen permeation, thermal and chemical expansion of (La, Sr)(Fe, Ga)O3−δ perovskite membranes
Keywords: گسترش شیمیایی; Catalytic membrane reactor; Perovskite; Thermal expansion; Chemical expansion; Oxygen permeability
Thermomechanical modelling of ion-conducting membrane for oxygen separation
Keywords: گسترش شیمیایی; Chemical expansion; Ionic conductivity; Perovskites; Membranes; Thermal expansion; Mechanical properties
Phase stability and oxygen non-stoichiometry of SrCo0.8Fe0.2O3−δ measured by in situ neutron diffraction
Keywords: گسترش شیمیایی; Neutron diffraction; Oxygen non-stoichiometry; Chemical expansion; Brownmillerite–perovskite phase transition; Membranes; SrCo0.8Fe0.2O3−δ
Thermal and chemical expansion properties of La0.2Sr0.8Fe0.55Ti0.45O3−x
Keywords: گسترش شیمیایی; La0.2Sr0.8Fe0.55Ti0.45O3−x; Perovskite oxide; Thermal expansion; Chemical expansion; Oxygen non-stoichiometry; Coulometric titration