4^th International Conference on

Advanced Materials for Clean Energy and Health Applications (AMCEHA)

June 3-5, 2026, Coimbatore Institute of Technology, India

The International Conference on Advanced Materials for Clean Energy and Health Applications (AMCEHA 2026) marks the fourth edition of this successful series, following the earlier conferences held in 2019, 2023, and 2025. This conference will serve as a global platform for researchers, scientists, and innovators to exchange knowledge, present cutting-edge research, and foster international collaborations in the fields of materials for clean energy and health applications.

The event will be jointly organised by the Coimbatore Institute of Technology (CIT), India, and the Western Norway University of Applied Sciences (HVL), Norway. The University of Jaffna will contribute intellectually as a collaborating partner, particularly in supporting editorial work and providing logistical assistance for Sri Lankan researchers.

Themes of the Conference

1. Hydrogen Energy: Generation, Storage & Applications in Transport and Industry

• Hydrogen production: electrolysis, thermochemical, and biological routes
• Hydrogen storage: solid-state, compressed, and liquid hydrogen systems
• Hydrogen fuel cells and industrial deployment
• Hydrogen in transport: automotive, aviation, marine applications
• Policy, safety, and infrastructure for the hydrogen economy

2. Solar Energy Materials & Applications

• Next-generation photovoltaics: perovskites, tandem, and organic solar cells
• Thin-film solar technologies and nanostructures
• Solar thermal energy conversion and hybrid systems
• Long-term stability and scalability of solar devices
• Solar energy integration into smart grids and green buildings

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3. Energy Storage: Batteries & Supercapacitors

• Advanced battery chemistries (Li-ion, Na-ion, solid-state batteries)
• Supercapacitors: materials, design and performance enhancement
• Hybrid storage systems: battery-supercapacitor combinations
• Materials for high-capacity, fast-charging and durable storage devices
• Recycling, sustainability and lifecycle analysis of energy storage systems

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4. Advanced Functional Materials & Devices

• Nanostructured and smart functional materials
• 2D materials and heterostructures for electronic and optoelectronic devices
• Sensors, actuators, and MEMS/NEMS applications
• Additive manufacturing and novel device fabrication approaches
• Flexible and wearable functional devices​​

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5. Modeling, Simulation & Artificial Intelligence in Materials Research

• Computational techniques: DFT, MD, Monte Carlo simulations
• AI and machine learning for materials discovery and optimization
• Digital twins and high-throughput screening in materials science
• Multi-scale modeling for energy and healthcare materials
• Predictive modeling of device performance and reliability​

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6. Materials for Health Applications

• Biomaterials for implants, tissue engineering and regenerative medicine
• Nanomaterials for targeted drug delivery and imaging
• Antimicrobial, antiviral and self-cleaning materials
• Biosensors: wearable, implantable and point-of-care devices
• Sustainable and biocompatible healthcare materials​