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2027 11th International Conference on Materials Engineering and Nano Sciences (ICMENS 2027) is the premier forum for the presentation of new advances and research results in the fields of theoretical, experimental, and applied Materials Engineering and Nano Sciences. The conference will bring together leading researchers, engineers and scientists in the domain of interest from around the world. Topics of interest for submission include, but are not limited to:
Track 1.
Advanced Materials Design, Synthesis and
Manufacturing |
Track 2. Nanomaterials and Nanoscale Science & Engineering |
• Functional materials design and development
• Crystal growth and phase engineering
• Thin films and coating technologies
• Additive manufacturing / 3D printing
• Powder metallurgy and sintering
• Surface engineering and treatment
• Smart and scalable manufacturing
• Emerging processing technologies
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• Nanoparticles, nanowires and nanotubes
• Graphene, MXenes and 2D materials
• Nanocomposites and hybrid nanostructures
• Nanoelectronics and nanosystems
• Nanofabrication and nanopatterning
• Nanomechanics and nanomanipulation
• Quantum nanostructures
• Nano-enabled applications |
Track 3. Energy Materials and Sustainable Technologies |
Track 4. Electronic, Photonic and Quantum Materials |
• Batteries and supercapacitors
• Hydrogen production and storage
• Fuel cells and catalytic materials
• Solar cells and photovoltaic systems
• Thermoelectric materials
• Carbon capture technologies
• Green materials and recycling
• Materials for clean energy systems
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• Semiconductor materials and devices
• Optoelectronic materials
• Photonic and optical materials
• Magnetic and spintronic materials
• Dielectric and ferroelectric materials
• Quantum materials and devices
• Flexible electronics
• Sensors and smart devices |
Track 5. Mechanical Behavior, Reliability and Structural Materials |
Track 6. Biomaterials, Polymers and Soft Matter |
• Mechanical properties of materials
• Fracture, fatigue and creep
• Corrosion and degradation behavior
• Wear resistance and tribology
• High-temperature materials
• Lightweight structural materials
• Structural integrity and durability
• Extreme environment performance
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• Biomedical materials and implants
• Tissue engineering materials
• Drug delivery systems
• Polymer materials and composites
• Hydrogels and soft materials
• Bioinspired materials
• Biodegradable materials
• Nanobiotechnology |
Track 7. Computational Materials Science, Characterization and AI for Materials |
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• First-principles calculations
• Molecular dynamics simulation
• Multiscale modeling
• Materials informatics
• Machine learning for materials discovery
• AI-assisted materials optimization
• Electron microscopy and spectroscopy
• In-situ / operando characterization
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