RCAS
Conference
- The National Conference on "Advancing Renewable Energy and Smart Materials- NARESMA 2025" aims to bring together leading academicians, researchers, industry experts, policymakers, and students to discuss and explore cutting-edge advancements in sustainable energy technologies and materials science. As the world shifts toward cleaner and more efficient energy solutions, the role of renewable energy and smart materials becomes increasingly critical in ensuring a greener and more sustainable future.
- This conference will serve as a dynamic platform for knowledge exchange, fostering interdisciplinary collaborations across various fields, including nanotechnology, materials science, chemistry, physics, and engineering. With a strong focus on sustainability, the event will highlight emerging trends, research breakthroughs, and innovative industrial applications that contribute to the global movement towards net-zero emissions and sustainable development.
- The discussions will revolve around renewable energy technologies, next-generation energy storage solutions, smart materials, carbon capture techniques, hydrogen energy, and eco-friendly industrial processes. By addressing both fundamental research and practical implementations, the conference aims to bridge the gap between academia and industry, ensuring that novel scientific discoveries translate into real-world solutions.
- The conference is aligned with India’s commitment to achieving energy security and sustainability under the Viksit Bharat 2047 vision and the United Nations Sustainable Development Goals (SDGs). It will explore pathways to accelerate India's green energy transition by leveraging cutting-edge technologies in materials science, nanotechnology, and renewable energy engineering.
- Conference Themes
Sustainable Energy Technologies and Innovations (SETI)
- Perovskite, Tandem, and Organic Solar Cells
- Hydrogen Production: Electrolysis, Photocatalysis & Biological Methods
- Hydrogen Storage and Fuel Cell Advancements
- Next-Generation Batteries (Solid-State, Na-ion, Li-ion)
- Super-capacitors and Hybrid Energy Storage Devices
- Smart Grid Systems and AI-Driven Energy Management
- Biomass Conversion for Renewable Energy Applications
- Pyrolysis and Anaerobic Digestion for Sustainable Fuel Production
- Circular Economy and Waste Valorisation Strategies
Smart and Sustainable Materials for Green Technologies (SSMGT)
- Quantum Dots and 2D Materials for Renewable Energy
- Carbon-Based Nanomaterials (Graphene, CNTs, MXenes)
- Photochemical and Electrochemical Processes for Energy Applications
- Biodegradable and Bioinspired Materials for Sustainability
- Smart Coatings and Thin Films for Energy Efficiency
- Thermoelectric and Piezoelectric Materials for Energy Harvesting
- Perovskite, Oxide, and Chalcogenide Materials for Energy Harvesting
- Catalytic Materials for Carbon Capture and Conversion
- Hybrid and Organic-Inorganic Materials for Sustainable Energy
Green Industrial Practices and Emerging Technologies (GIPET)
- Sustainable Manufacturing and Low-Carbon Industrial Processes
- Green Catalysis and Environmentally Friendly Solvent Technologies
- Waste Reduction and Recycling Strategies in Energy Production
- Synthetic Fuels and Biohydrogen as Sustainable Alternatives
- Ammonia-Based Energy Storage and Fuel Applications
- Advanced Catalysis for Hydrogen Production and Utilization
- AI-Driven Materials Discovery for Energy Applications
- Computational Modelling for Renewable Energy Efficiency
- Machine Learning for Energy Optimization and Smart Grid Integration
