Preparation and Characterization of Proton-Conducting Materials Based on Lanthanum Niobates for Hydrogen Separation Membranes Conference Abstracts
Conference |
XVI Conference of the European Ceramic Society 16-20 Jun 2019 , Torino |
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Source | XVI Conference of the European Ceramic Society. Abstract Book Compilation, 2019. 897 c. |
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Output data | Year: 2019, Article number : ABS 808, Pages count : 1 | ||||||
Authors |
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Affiliations |
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Funding (2)
1 | Russian Science Foundation | 16-13-00112 |
2 | Federal Agency for Scientific Organizations | 0303-2016-0013 |
Abstract:
Rare-earth niobates are a promising group of materials due to the complexity of their structure and properties which qualify them as candidates for a variety of applications. LaNbO4 has been studied as a perspective type of proton conductor even though its conductivity is somewhat low. Many attempts have been made to improve the conductivity by single- or multi-element doping. In general, good mechanical properties, high stability in H2O- and CO2-containing atmospheres and compatibility with transition metals (Cu, Ni, Cu-Ni alloys) and their oxides [1, 2] make these compounds attractive for design of nanocomposite hydrogen separation membranes.
In our work lanthanum niobates LaNbO4, La0.99Ca0.01NbO4, LaNb1-xMoxOx and LaNb3O9 were synthesized using a modified Pechini route and mechanochemistry by high-energy milling. Structural and transport properties of sintered niobates were characterized by X-ray, Raman and IR- spectroscopy and 93NbNMR nuclear magnetic resonance, SEM, TEM, thermogravimetry and conductivity measurements. Besides, hydrated niobates have been investigated by using 1H-NMR. Oxide-oxide (La0.99Ca0.01NbO4+LaNb3O9) and metal-oxide (Cu0.5Ni0.5+La0.99Ca0.01NbO4 and Cu0.5Ni0.5 + LaNb1-xMoxOx ) nanocomposites were prepared by treating the mixture of either complex oxides calcined at 700ºC or oxide + Cu0.5Ni0.5 powders in weight ratio 35:65. 5 wt. % by their ultrasonic dispersion in isopropanol. The powders of
nanocomposites were pressed into pellets (d = 13 mm) and sintered using conventional thermal sintering as well as hot pressing under 50 MPa at 1100 °C. All obtained nanocomposite materials were characterized using XRD, SEM, TEM, impedance spectroscopy, oxygen 16O/18O (with C18O2) isotope heteroexchange. A wide range of methods were used to examine hydrated niobates and nanocomposites in order to ascertain the nature of H+-containing species and to get understanding of the mechanism of proton transport. Typical proton conductivity values are ~10 5 S/cm at 550 °C. OH migration appears to be more favorable way of migration than H+ jumps between O2 . H2O desorption experiments revealed the working temperature range being 300 – 450 °C.
Cite:
Bespalko Y.
, Sadykov V.
, Skriabin P.
, Eremeev N.
, Krieger T.
, Khabibulin D.
, Krasnov A.
, Uvarov
Preparation and Characterization of Proton-Conducting Materials Based on Lanthanum Niobates for Hydrogen Separation Membranes
In compilation XVI Conference of the European Ceramic Society. Abstract Book. 2019. – C.410.
Preparation and Characterization of Proton-Conducting Materials Based on Lanthanum Niobates for Hydrogen Separation Membranes
In compilation XVI Conference of the European Ceramic Society. Abstract Book. 2019. – C.410.
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