Track 1: Innovative Materials & Techniques for Green Transitions
- Advanced materials for clean and renewable energy
- Functional and smart materials for energy efficiency
- Green manufacturing and low-carbon processing
- Circular economy materials: recycling and upcycling
Track 2: Computational Materials Science & Multiscale Modelling
- Machine learning and AI for materials prediction
- Simulation of mechanical and thermal properties
- High-performance computing for simulations
- Multiscale modeling of materials behavior
Track 3: Advanced Functional Materials for Energy
- Materials for solar cells, batteries and supercapacitors
- Hydrogen storage and fuel cell materials
- Thermoelectric and energy-harvesting materials
Track 4: Nanomaterials & Nanotechnology for Sustainability
- Green synthesis of nanomaterials
- Nano-enabled environmental remediation
- Nanomaterials for energy, water and healthcare
Track 5: Environmental Protection & Water Treatment
- Adsorbents and membranes for water purification
- Catalysts for pollution control
- Carbon capture and sequestration materials