Structure–Property Relations in Rare-Earth Doped Manganite Perovskites: A Review

Structure–Property Relations in Rare-Earth Doped Manganite Perovskites: A Review

K. Sakthipandi, Aslam Hossain, G. Rajkumar

The perovskite with R1−xAxMnO3 (R = rare-earth and A = divalent metals) formula has worldwide attention due to its fascinating electrical and magnetic properties. A-site doped manganite perovskite oxides were broadly investigated based on theoretical and experimental point-of-view due to interesting phenomenon such as charge ordering, orbital ordering, colossal magnetoresistance (CMR), order-disorder transition, phase separation scenario, etc. Such kind of manganite system has two types of transitions as an insulator to metal transition and paramagnetic to ferromagnetic transition. The significance of perovskite materials and their electronic, magnetic or structural phase transition temperatures were analyzed with different experimental results.

Keywords
Perovskites Oxide, Magnetic Properties, Ionic Radius, Colossal Magnetoresistance, Curie Temperature

Published online 9/20/2019, 26 pages

Citation: K. Sakthipandi, Aslam Hossain, G. Rajkumar, Structure–Property Relations in Rare-Earth Doped Manganite Perovskites: A Review, Materials Research Foundations, Vol. 57, pp 149-174, 2019

DOI: https://doi.org/10.21741/9781644900390-7

Part of the book on Engineering Magnetic, Dielectric and Microwave Properties of Ceramics and Alloys

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