Track-1: Phase Transitions & Dynamics, Soft Matter
- Complex behavior and transformations in materials
- Solid-state physics to quantum phase transitions
- Materials for sustainable future technologies
- Applications of soft materials, including polymers, liquid crystals, and biological materials
Track-2: Surfaces, Interfaces, and Thin Films
- Latest advancements in thin film technology
- Role of surfaces and interfaces in material properties
- Properties of materials at the nanoscale (synthesis, characterization, and potential applications in various industries)
- Structural & functional properties of different nanomaterials (Amorphous/Crystalline)
Track-3: Dielectric, Ferroelectric, and Piezoelectric Materials
- Development of Multiferroic materials at nano level
- Applications of these materials in sensors, actuators, and energy storage
- Mechanisms of charge and ion transport in materials
- Physics of semiconductors and their applications in modern technology
Track-4: -D, 2-D, and Quantum Materials
- Low-dimensional and quantum materials
- Applications of these materials in electronics, photonics, and beyond
- Graphene & graphene derivatives and their applications
- 2-D materials for energy generation, storage, and conversion