Magnetoresistance properties of 0.99La0.7(Ca Sr1−)0.3MnO3/0.01CuZnFe4O4 composites

“…It typically involves conventional solid-state reactions, sol-gel methods, thin film coating, wet-mixing or advanced techniques. 7,[9][10][11][12][13][14] Each method has its advantages and challenges, which affect the phase purity, crystalline structure, particle size, and surface morphology of the final product. Understanding these synthesis techniques and their outcomes is vital for advancing the application of this material in cutting-edge technologies.…”

Investigation of the impact of A-site cation disorder on the structure, magnetic properties, and magnetic entropy change of trisubstituted divalent ions in La_0.7(Ba,Ca,Sr)_0.3MnO₃ manganite

“…It typically involves conventional solid-state reactions, sol-gel methods, thin film coating, wet-mixing or advanced techniques. 7,[9][10][11][12][13][14] Each method has its advantages and challenges, which affect the phase purity, crystalline structure, particle size, and surface morphology of the final product. Understanding these synthesis techniques and their outcomes is vital for advancing the application of this material in cutting-edge technologies.…”

Investigation of the impact of A-site cation disorder on the structure, magnetic properties, and magnetic entropy change of trisubstituted divalent ions in La_0.7(Ba,Ca,Sr)_0.3MnO₃ manganite

“…In particular, magnetic nanostructures are important due to their numerous advanced technological applications, such as high-density magnetic recording, catalysts, targeted drug delivery, genetic screening, biochemical, and toxicity cleansing, magnetic cell sorting schemes, magnetocytolysis agents for the treatment of localized cancerous tumors, multiferroic, microwave devices as well as their magnetic random access memory, disk-drive read heads, bolometers, and magnetic field sensors, magnetic Ferrofluids [7][8][9][10][11][12][13]. Furthermore, magnetic materials that have a spinel structure (AB 2 O 4 ) and perovskite (ABO 3 ) have shown remarkable physical properties, for example, colossal magnetoresistance (CMR), multiferroic, high sensitivity of magnetization to applied stress, excellent chemical stability, and a large magneto-optic effect [14][15][16][17]. Additionally, the co-existence of two ferroic orderings (known as multiferroic) in a single material creates a great probability for the fabrication of multifunctional devices that are appropriate for applications such as multistate memory devices, high energy density capacitors data storage, magnetoelectric sensor, etc.…”

Structural, Electrical and Optical Properties of TM (Mn and Cr) Doped BiFeO3 Nanoparticles

The Impact of Disorder on the Disappearance of Metamagnetic Behavior and Enhancement of Temperature Coefficient of Resistivity for (La1−xNdx)2/3(Ca1−ySry)1/3MnO3 Ceramics