The journal welcomes contributions related to magnetic materials and nanostructures in which at least one constituent element belongs to transition metals or rare-earth elements, whose partially filled d or f orbitals give rise to diverse magnetic properties. Emphasis is placed on both fundamental mechanisms and application-oriented studies relevant to emerging technologies.

Scope of the Journal includes, but is not limited to:

• Fundamental and applied nanomagnetism
• Condensed matter physics and magnetic phenomena
• Nanophysics and low-dimensional magnetic systems
• Magnetic nanomaterials and functional magnetic materials
• Spintronics, magnonics, and spin-based devices
• Magnetic nanoparticles, thin films, multilayers, and heterostructures
• Rare-earth and transition-metal-based magnetic compounds
• Magnetic characterization techniques (XRD, VSM, SQUID, XPS, Mössbauer, neutron scattering, etc.)
• Magnetic materials for electromagnetic wave absorption and shielding
• Nanochemistry and materials chemistry of magnetic systems
• Nanotechnology-driven magnetic applications
• Biomedical nanomagnetism, including drug delivery, hyperthermia, MRI contrast agents, and biosensing
• Nanobiotechnology and magnetic systems in life sciences
• Magnetic materials for energy, communication, and electronic devices
• Modeling, simulation, and theoretical studies of magnetic nanostructures
• Industrial and engineering applications of magnetic nanomaterials

With the rapid expansion of magnetic nanomaterials in industry, healthcare, biotechnology, electronics, and communication technologies, the journal aims to bridge the gap between fundamental research and real-world applications. It provides a dedicated forum for scientists, engineers, and medical researchers to disseminate impactful findings and foster interdisciplinary collaboration.