Author: Moure C. Villegas M. Fernandez J.F. Tartaj J. Duran P.
Publisher: Springer Publishing Company
ISSN: 0022-2461
Source: Journal of Materials Science, Vol.34, Iss.11, 1999-06, pp. : 2565-2568
Disclaimer: Any content in publications that violate the sovereignty, the constitution or regulations of the PRC is not accepted or approved by CNPIEC.
Abstract
Solid solution formation between the ferroelectric hexagonal compound YMnO_3 and the semiconducting perovskite compound CaMnO_3 has been studied in the Y-rich region of the pseudobinary system. The materials were prepared by reaction of the corresponding oxides and the calcium carbonate for obtaining the corresponding phases and subsequent sintering of the pressed powders in the 1400–1525 °C-temperature range. Their ceramic characteristics were established. Samples with relative density >98% D_th were obtained. The hexagonal symmetry of the pure yttrium manganite changes to an orthorhombic one, isostructural with that of the GdMnO_3 compound, for ∼32 mol % CaMnO_3. The incorporation of the Ca cation causes an increasing in the compactness of the lattice cell, promoting a rise in the apparent density, despite of the smaller atomic weight of the Ca cation against that of the Y one, until the transition to the orthorhombic lattice occurs. Subsequent increase in the Ca amount lead to a decrease in the theoretical density.The electrical conductivity of the solid solutions increases strongly from 100 to the 90/10 Y/Ca composition, and more moderately for higher Ca amounts. Conductivity values as high as 10^−2 S · cm^−1 were measured on the denser samples. The activation energy for conduction suffers a corresponding decrease when the Ca amount is increased.
Related content
By Riaño-Rojas J. Restrepo-Parra E. Orozco-Hernández G. Urrea-Serna J. Restrepo J.
Journal of Materials Science, Vol. 45, Iss. 23, 2010-12 ,pp. :
Electrical conductivity studies of AgI–Ag2O–B2O3–TeO2 glasses
Journal of Materials Science, Vol. 42, Iss. 11, 2007-06 ,pp. :
Transition Insulator-Metal and Antiferromagnetic-Paramagnetic Cu Doped in La0.47Ca0.53MnO3
Advanced Materials Research, Vol. 2015, Iss. 1123, 2015-09 ,pp. :