The 5th International Conference on Trends in Material Science and Inventive Materials (ICTMIM 2024) invites original research contributions that explore the synergy between artificial intelligence, materials science, and power electronics. We encourage submissions that address the fundamental principles, experimental validation, and practical applications of intelligent materials. The conference will provide a platform to showcase cutting-edge research, enable interdisciplinary research collaboration, and identify emerging trends in this area.
Track 1: Advanced Energy Storage Materials
Next-generation lithium-ion and solid-state batteries
Advanced supercapacitor materials and design
Novel cathode and anode materials for batteries
Energy density and efficiency improvements in storage systems
Thermal management solutions for battery systems
Lifecycle assessment and recycling strategies for energy storage
Hybrid energy storage systems (e.g., battery-supercapacitor combos)
Emerging materials for flow batteries
Impact of nanotechnology on battery performance
Strategies for scaling energy storage technologies for grid applications
Track 2: Smart and Functional Materials
Development of adaptive materials for energy applications
Innovations in piezoelectric materials and devices
Shape memory alloys for energy efficiency improvements
Self-healing materials in renewable energy systems
Smart sensors for energy monitoring and management
Thermoelectric materials for waste heat recovery
Materials for energy-harvesting devices
Impact of machine learning on smart materials design
Multifunctional composites for energy applications
Real-world applications of functional materials in power systems
Track 3: Sustainable and Renewable Resource Materials
Biodegradable materials for energy applications
Innovations in organic photovoltaics
Advances in wind turbine blade materials and design
Sustainable materials for hydropower systems
Life cycle analysis of renewable energy materials
Use of recycled materials in energy technologies
Green chemistry approaches to material synthesis
Nanomaterials for enhancing solar cell efficiency
Development of bio-based polymers for energy applications
Environmental impact of materials used in renewable energy systems