Electrical properties and thermal expansion of strontium aluminates
| authors | Zakharchuk, KV; Yaremchenko, AA; Fagg, DP |
| nationality | International |
| journal | JOURNAL OF ALLOYS AND COMPOUNDS |
| author keywords | Strontium aluminate; Electrical conductivity; Thermal expansion; Ionic transport; Proton conductivity; Combustion synthesis |
| keywords | POWDER DIFFRACTION DATA; OXYGEN PERMEABILITY; CERAMIC MEMBRANES; CRYSTAL-STRUCTURE; SRO-AL2O3 SYSTEM; X-RAY; PHOSPHOR; STABILITY; B2O3; LUMINESCENCE |
| abstract | Strontium aluminate ceramics, including Sr3Al2O6, SrAl2O4 and Sr4Al14O25, synthesized by glycine-nitrate combustion and sintered at 1773 K in air, were characterized by thermal analysis, dilatometry and electrical measurements in controlled atmospheres. All studied strontium aluminates are semiconductors with electrical conductivities as low as 10(-6)-4 x 10(-5) S/cm at 1273 K in dry air. Electrical measurements in controlled atmospheres in combination with ion transference number determination demonstrated that SrAl2O4 is a mixed conductor with predominant ionic conductivity and increasing n-type and p-type electronic contributions under highly reducing and oxidizing conditions, respectively. While the behavior of electrical conductivity of Sr3Al2O6 in dry atmospheres was qualitatively similar to that of SrAl2O4, a significant increase of conductivity in wet atmospheres was attributed to a protonic contribution to electrical conduction, in correlation with thermogravimetric data and the tendency of this material to form a hydrogamet at low temperatures. The average thermal expansion coefficients of strontium aluminates, (8.5-11.1)x10(-6) K-1 at 333-1373 K, increase with increasing strontium content in the sequence Sr4Al14O25 < SrAl2O4 < Sr3Al2O6 and are essentially independent of oxygen partial pressure. (C) 2014 Elsevier B.V. All rights reserved. |
| publisher | ELSEVIER SCIENCE SA |
| issn | 0925-8388 |
| year published | 2014 |
| volume | 613 |
| beginning page | 232 |
| ending page | 237 |
| digital object identifier (doi) | 10.1016/j.jallcom.2014.05.225 |
| web of science category | Chemistry, Physical; Materials Science, Multidisciplinary; Metallurgy & Metallurgical Engineering |
| subject category | Chemistry; Materials Science; Metallurgy & Metallurgical Engineering |
| unique article identifier | WOS:000340018500040 |
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| journal impact factor | 3.779 |
| 5 year journal impact factor | 3.315 |
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