Fundamental Materials Science & Theory
- Materials Characteristics & Structure-Property Relationships
- Surfaces, Interfaces & Thin Films
- Surface Engineering & Tribology
- Fracture, Fatigue & Degradation
- Materials Modeling & Simulation
- Materials Synthesis & Processing Science
Advanced Material Systems
- Metals & Alloys
- Ceramics & Glasses
- Polymers & Polymer Chemistry
- Composite Materials & Hybrid Structures
- Nanomaterials & Low-Dimensional Systems
- Smart/Intelligent Materials & Systems
Functional Applications & Energy
- Energy Materials & Composites
- Solar Energy Materials
- Electronics & Photonics Materials
- Magnetic, Optical & Electronic Materials
- Renewable & Sustainable Materials
- Quantum Materials
Biomaterials & Sustainability
- Biomaterials & Tissue Engineering
- Bio-hybrid Systems & Living Materials
- Sustainable & Circular Materials
- Materials for Extreme Environments
- Bio-inspired & Biomimetic Materials
- Materials Safety & Ethics
Processing & Manufacturing
- Laser, Microwave & Thermal Processing
- Additive Manufacturing (3D/4D Printing)
- Precision & Nano-fabrication
- High-Throughput Synthesis
- AI-Driven Manufacturing
- Green Manufacturing Processes
Materials 4.0: Intelligent, Adaptive and Sustainable
- AI and Data-Driven Materials Discovery
- Sustainable and Circular Materials Engineering
- Materials for Extreme Environments
- Bio-inspired and Biomimetic Materials
- Quantum Materials and Devices
- Soft Matter and Active Materials
- Multiferroics and Magnetoelectric Materials
- High-Throughput Materials Fabrication
- 4D Printing Materials and Systems
- Materials for Neuromorphic Computing
- Bio-hybrid Systems and Living Materials
- Materials Safety, Ethics and Standardization