Effect of fe3+ partial substitution at mn-site on electroresistance behaviour in la0.7ba0.3mn1-xfexo3 (x = 0 and 0.02) manganites

• Published in: Solid State Phenomena
• Main Author: Muhammad Suffian S.; Norazila I.; Zakiah M.; Rozilah R.; Ahmad Kamal Y.
• Format: Conference paper
• Language: English
• Published: Trans Tech Publications Ltd 2021
• Online Access: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85120526326&doi=10.4028%2fwww.scientific.net%2fSSP.317.3&partnerID=40&md5=57dd32e1fb5b9829141511ab9c63c5fd

La0.7Ba0.3Mn1-xFexO3 (x = 0 and 0.02) were prepared by using solid state synthesis method to investigate the effect of Fe3+ substitution at Mn-site on electrical behaviour and structural properties. An analysis of X-ray diffraction, XRD data using refinement method shown both x = 0 and x = 0.02 samples were in single phased and crystallized in rhombohedral structural with Pnma space group. From ρ vs T curves shown resistivity decreased under increased of applied current of 10 mA to 20 mA for both samples in the temperature range of 20 K-300 K. The larger electroresistance, ER effect observed for x = 0.02 in temperature range of 20 K – 180 K compared to x = 0 sample is suggested due to the development of filamentary conduction path under increased of applied current. It is suggested that Fe substitution enhanced magnetic inhomogeneity which contribute to the growth of formation of conductive path under increased of applied current, lead to increase of ER effect. In the temperature range of 180 K – 300 K, the observed decreased in ER for Fe substituted sample (x = 0.02) is suggested due to the increased of scattering effect and reduction of available hopping site in metallic region and insulating region, respectively. Restriction in the movement of charge carrier had weakened the ER effect for Fe substituted sample. The observed ER effect indicates the compound has a potential for application such as for non-volatile memory elements. © 2021 Trans Tech Publications Ltd, Switzerland.