technical categories

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