Abstract
Grain-size dependence of electronic transport and magnetoresistance (MR) properties of nanostructured La0.7Sr0.3MnO3 (LSMO) manganite thin films on LaAlO3 (100) single crystal substrates prepared using Chemical Solution Deposition (CSD) technique have been studied. The LSMO thin films were annealed at temperatures in the range of 700-1000 degrees C for different time intervals [6 h and 12 h] and crystallized as singlephase LSMO. Microstructural studies carried out using AFM show a marginal increase in the grain-size from 50 to 90 nm as the temperature was varied from 700 degrees C to 1000 degrees C respectively. It has been observed that the insulator-metal transition (T(p)) and MR depend on the grain size. In zero applied field, resistivity reduction is approximately 10(3) at 5 K for the films annealed at 700 degrees C [T(p) approximately 341 K] and 1000 degrees C [T(p) approximately 373 K]. MR versus H isotherms reveal that MR enhances in the vicinity of T(p) but decreases at low temperatures. The results obtained from the electronic and magnetotransport studies are in good agreement with the change in surface morphology of the films studied, which shows that the randomly distributed domains are composed of faceted grains. Synthesizing conditions, annealing temperature and time control the growth and alignment of grains into the domains, which cause better conduction at grain interface.
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