The International Conference on Advanced and Sustainable Materials (ICASM2025) is being held for the first time from Nov 16-18, 2025, at College of Education, building (I10), Qatar University. This conference will serve as a key platform bringing together specialists, industry leaders, academics, and stakeholders from around the world to discuss, exchange, and promote sustainability practices in materials. It also aims to provide a platform for local and international experts and professionals in engineering, advanced materials, and sustainability to explore ways to integrate economic, social, and environmental goals into the operations of various institutions. It aims to identify and discuss key challenges and possible solutions, as well as explore innovative approaches in the fields of energy, technology, and manufacturing industries, contributing to a more sustainable future and strengthening public-private sector relationships.
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Registration deadline
07th Sept 2025 -
Last date for submission of full manuscripts for conference special issue
30th Jan 2026
The event provides a unique opportunity for knowledge exchange, fostering collaboration between academia and industry, and highlighting the latest research and practical applications shaping the future of sustainable industries.
Join us at this distinguished scientific gathering to contribute to the development of technologies that create a positive impact on the world.
Topics include/ not limited to sustainable materials for :
1. Energy :
Renewable Energy Storage; Sustainable; Batteries; Supercapacitors; Bio-based Materials; Recyclable Solar Materials; Green Hydrogen; Hydrogen Storage; Nanomaterials for Energy; Energy Harvesting; Conductive Polymers; Organic Electronics; Low-Carbon Materials; Renewable Energy Infrastructure; Phase Change Materials; Thermal Energy Storage; Fuel Cell Materials; Electrolyzer Materials; AI-Guided Materials Design; Data-Driven Materials Discovery; Computational Materials Modeling; Lithium-Ion Batteries; Solid-State Batteries; Graphene Materials; Carbon Nanomaterials; Thermochemical Energy Storage; Electrocatalysts; Flexible Energy Materials; Transparent Solar Cells; Carbon Capture Materials; High-Efficiency Photovoltaics; Smart Energy Materials; Nanostructured Electrochemical Materials; Energy-Efficient Building Materials; Solar Cell Materials; Sustainable Energy Technologies;
2.Environment:
Biodegradable Materials; Compostable Materials; Sustainable Materials; Recycled Materials; Upcycled Materials; Circular Economy; Biochar; Carbon Capture Materials; Water Purification Materials; Filtration Membranes; Adsorbent Materials; Eco-friendly Coatings; Anti-pollution Paints; Soil Remediation Materials; Green Infrastructure Materials; Smart Materials; Self-Healing Materials; Sustainable Packaging; Wastewater Treatment Materials; Resource Recovery Materials; Air Pollution Control Materials; Environmental Monitoring Sensors; Pollution Sensing Materials; Zero-Waste Technologies; Eco-conscious Construction Materials; Environmental Nanomaterials; Environmental Cleanup Materials; Renewable Energy Integration Materials; Low-Impact Biopolymers; Agricultural Biopolymers; Ecological Restoration Materials; Habitat Conservation Materials; Waste-to-Energy Materials; Climate Resilience Materials; Resource-Efficient Environmental Materials.
3. Biomedical Applications:
Biodegradable Biomaterials; Biocompatible Materials; Medical Implants; Recycled Biomaterials; Upcycled Biomedical Materials; Sustainable Biomedical Materials; Biochar in Medicine; Carbon-Based Biomaterials; Therapeutic Nanomaterials; Diagnostic Nanomaterials; Water Purification for Clinical Use; Antimicrobial Coatings; Healthcare Surface protection; Wound Healing Materials; Tissue Engineering Scaffolds; Smart Biomaterials; Self-Healing Biomaterials; Regenerative Medicine Materials; Biodegradable Medical Packaging; Biomedical Waste Management; Air and Surface Sterilization Materials; Biomedical Sensors; Health Monitoring Devices; Biomedical Diagnostics Materials; Zero-Waste Healthcare Technologies; Sustainable Healthcare Infrastructure; Circular Economy in Biomedical Design; Nanomaterials for Drug Delivery; Bioimaging Nanomaterials; Energy Harvesting Medical Devices; Wearable Biomedical Devices; Implantable Energy Materials; Biopolymers for Pharmaceuticals; Tissue Regeneration Materials; Organ Engineering Materials; Biomedical Waste-to-Energy Solutions; Emergency Medicine Biomaterials; Resource-Efficient Biomedical Materials; Global Health Technologies.
4. Engineering:
Recycled Materials; Reclaimed Materials; Biodegradable Materials; Bio-based Materials; Green Concrete; Eco-friendly Cement; Smart Materials; Responsive Materials; Lightweight Composites; High-Performance Composites; Sustainable Nanomaterials; Nanomaterials for Green Applications; Sustainable Insulation Materials; Thermal Insulation Materials; Renewable Structural Materials; Lifecycle Assessment; Environmental Impact Assessment; Circular Economy; Material Reusability; Sustainable Construction Materials.
Venue