| 1. Spintronics and Spin-driven Phenomena |
| Magnetoresistance in Heterostructures (GMR, TMR, TAMR) |
| MRAM, Magnetic Logic, and Related Devices |
| Neuromorphic Computing |
| Antiferromagnetic and Ferrimagnetic Spintronics |
| Skyrmions and Spin Textures |
| Spin-Orbitronics (e.g., spin-orbit torque, orbital torque, Dzyaloshinskii-Moriya interaction) |
| Spin Injection and Spin Transfer Torques |
| Spin-caloritronics and Related Effects (Nerst Anomalous Effect, Spin Hall Magnetoresistance, etc.) |
| Multiferroics and Magnetoelectric Phenomena |
| Voltage-controlled Magnetic Anisotropy and Switching |
| Dilute Magnetic Semiconductors |
| Spin Gapless Semiconductors |
| Spin-related Phenomena in Superconductors |
| Ultrafast Spin Dynamics |
| Graphene-based Spintronics |
| 2D Spintronics (e.g., Topological insulators, Weyl and Dirac semimetals) |
| 2. Two-dimensional Materials and Heterostructures |
| 2D van der Waal materials (growth, characterization) |
| 2D Dilute Magnetic Semiconductors |
| 2D Heterostructures |
| 2D Magneto-optical Materials |
| 2D Magneto-electronic Materials |
| Defect Engineering of 2D Materials |
| 2D Magneto-plasmonics |
| 2D Straintronics |
| 2D Quantum emitters |
| 2D Perovskite Magnetic Materials (synthesis, characterization) |
| 2D Sensors and Devices (design, integration, test) |
| Ultrafast 2D Magnetism and All Optical Switching |
| Magnetically Controllable Thermoelectric Properties of 2D Materials and Heterostructures |
| New Physical Phenomena (e.g., exchange bias, spin-valley coupling, ferroelectricity-valley coupling) |
| Novel Applications (e.g., 2D van der Waal spintronics, opto-spintronics, magneto-photonics, spin-valleytronics) |
| 3. Soft/Hard Magnetic Materials and Applications |
| Ferrites and Garnets |
| Crystalline Alloys |
| Amorphous and Nanocrystalline Materials (Bulk, ribbons, wires, thin films) |
| Rare-Earth Compounds |
| Intermetallic Alloys and L10 Alloys |
| Rare-Earth Free Hard Magnetic Materials |
| Nanostructured, Composite and Other Hard Magnetic Materials |
| Magnetic Nanocomposites |
| Magnetic Oxides and Collective Phenomena |
| Transformers and Sensors (Hall sensors; Magnetoimpedance sensors, etc.) |
| 4. Emerging Materials for Energy Harvesting and Related Applications |
| Magneto-thermoelectric Materials and Phenomena (e.g., magnetically triggered thermoelectric functionalities) |
| Multicaloric Materials (magnetocalorics, magneto-elastocalorics, magneto-electrocalorics, magneto-barocalorics, etc.) |
| Magneto-catalytic Materials and Magnetically Controlled Photocatalytic Phenomena |
| Magnetically Controlled Battery Performance and Materials |
| Defect-engineered 2D Materials for Magneto-catalytic Applications |
| High-entropy Magnetic Alloys (bulk, ribbons, wires) |
| Quantum Materials for Energy and Communication (molecular magnets, 2D materials, 2D perovskites, etc.) |
| Iron-based Superconductors and Related Systems |
| 5. Bio-Nanomagnetism in Human Healthcare |
| Magnetic Nanostructures (nanoparticles, nanowires, etc.) for Biomedical Applications |
| Magnetic Separation and Biodetection |
| Nanomaterials for Targeted Drug Delivery |
| Biomedical Diagnostics and Imaging (MRI) |
| Magnetic Hyperthermia Therapies and Nanomedicine |
| Nanoparticle-based Biosensors |
| Magneto-optical Nanosensors |
| Magneto-chemical Nanosensors for Environmental Monitoring |
| Machine Learning-Guided Biosensing and Healthcare Monitoring |
| 6. AI and Machine Learning for Materials Design |
| High Throughput Techniques and Models |
| Design of New Materials with Desirable Properties based on Machine Learning and AI Analysis |
| Prediction of New Properties using Machine Learning and AI |