Author(s): Lukas Reinhardt and Keiko Tanaka

Abstract: Magnetic materials underpin modern energy and electronic technologies, enabling devices from electric motors and transformers to sensors, data storage, and emerging spintronic platforms. Rising demands for energy efficiency, miniaturization, and functional integration have accelerated research into materials with enhanced performance and tunable properties. Recent advances span soft and hard magnetic alloys, ferrites, rare-earth-free magnets, amorphous and nanocrystalline systems, and low-dimensional magnetic materials. Progress in synthesis (e.g., rapid solidification, thin-film deposition, and additive manufacturing) has improved control over microstructure, composition, and anisotropy, strengthening key parameters such as coercivity, saturation magnetization, permeability, and thermal stability for high-frequency and high-temperature operation. In parallel, modeling and computational materials science increasingly guide discovery via structure-property predictions. Applications in renewable generation, power electronics, sensors, non-volatile memory, and spin-based logic highlight the impact of these developments, while sustainability, cost, scalability, and long-term reliability remain active challenges. This article summarizes current trends and future directions in magnetic materials for energy and electronic applications.

DOI: 10.22271/27078221.2026.v7.i1a.102

Pages: 34-38 | Views: 20 | Downloads: 7

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