L T ANH THU
Articles written in Bulletin of Materials Science
Volume 43 All articles Published: 15 June 2020 Article ID 0139
L T ANH THU N N DINH N VIET TUYEN B T CONG
Structure and electrical resistivity of $(1 − x)$La$_2$NiO$_{4+\delta}$/$x$BaTiO$_3$ composites ($x = 0.05$, 0.1, 0.2, 0.3, 0.5) produced by combining the sol–gel and ceramic sintering methods have been investigated. Among the samples sintered at temperature 1300$^{\circ}$C for 16 h, the metal–insulator transition (MIT) temperature of $x = 0.1$ sample, which is $T_{\rm MI} = 700$ K, is lower than the MIT temperature (800 K) of the pristine La$_2$NiO$_{4+\delta}$ (LNO) perovskite. Reduction of resistivity of $x \leq 0.3$ composite is mainly due to decrease of the scattering of electrical carriers by composite large grain boundaries and the structural change of the LNO component. The temperature dependence of the resistivity of $(1 − x)$La$_2$NiO$_{4+\delta}$/$x$BaTiO$_3$ composites is well-explained by a two conducting component model consisting of small polarons (SP) and large polarons (LP). A crossover between SP and LP with increasing temperature is described by the probability volume fraction function $f$ for SP and $1 − f$ for LP, which are equal to $1/2$ at transition temperature $T_{\rm MI}$. The observed lowest resistivity $\rho =11$ m$\Omega$ cm for $x = 0.1$ sample corresponds to the lowest SP thermal activation energy $E_{\rm a}$, the contributions of residual and phonon resistivities at $T_{\rm MI}$. The MIT of these composites satisfies approximately the Mott criterion.
Volume 44, 2021
All articles
Continuous Article Publishing mode
Prof. Subi Jacob George — Jawaharlal Nehru Centre for Advanced Scientific Research, Jakkur, Bengaluru
Chemical Sciences 2020
Prof. Surajit Dhara — School of Physics, University of Hyderabad, Hyderabad
Physical Sciences 2020
Click here for Editorial Note on CAP Mode
© 2021-2022 Indian Academy of Sciences, Bengaluru.