Wide temperature range magnetoresistance enhancement of La0.67Ca0.33MnO3: NiO nanocomposites

Author:

Lau L. N.,Hon X. T.,Wong Y. J.,Lim K. P.ORCID,Kamis N. H.,Kechik M. M. Awang,Chen S. K.,Ibrahim N. B.,Shabdin M. K.,Miryala M.,Shaari A. H.

Abstract

AbstractThis paper reports the addition of NiO nanoparticles into the LCMO nanocomposites through a simplified methodology in the heat treatment process compared to the previous work. Structural analysis showed that LCMO and NiO co-existed in the samples without the formation of other phases and confirmed their composite structures. The grain size distribution of samples was observed to become narrower and left-skewed as the concentration of NiO nanoparticles increased. This indicates that the NiO nanoparticles were distributed near the grain boundaries or on the grain surfaces. The presence of La, Ca, Mn, O, and Ni was confirmed by EDX analysis, and no additional impurities were noticeable, which revealed that the composites here are chemically pure in the composition. Temperature dependence magnetisation measurement (100–300 K) revealed the occurrence of ferromagnetic to paramagnetic transition. The Curie temperature, TC recorded at 260 K for all samples. However, the metal–insulator transition temperature, TMI was found to decrease from 246 to 120 K as the NiO content increased. Magnetoresistance of composites was observed to enhance over a wide temperature range at 10 kOe. The findings of LCMO: NiO composites in this work can set up a new perspective and unlock its potential to be utilised in magnetic field sensor element functioning at a wide range of temperatures.

Funder

Ministry of Higher Education, Malaysia

Publisher

Springer Science and Business Media LLC

Subject

General Materials Science,General Chemistry

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