ICEAMST 2025 welcomes high-quality research papers addressing significant innovations and applications in material science. The topics
of interest include, but are not limited to, the following tracks:
Track 1: Advanced Electronic Materials and Electronics
2D and 3D materials for next-generation electronics
Layered materials for flexible and transparent electronic devices
Stretchable and biodegradable electronics
High-performance dielectric and piezoelectric applications
Transistors and memory architectures
Advanced signal and imaging technologies
Bio-inspired electronic systems
Edge computing and AI-integrated embedded devices
Quantum materials for future electronics
MEMS and NEMS innovations
Advanced satellite and deep-space communication materials
5G and 6G-ready electronic circuits and architectures
High-speed photonic and optoelectronic systems
Terahertz and sub-terahertz communication materials
Nanoelectronic sensor applications
Track 2: Sustainable Materials and Communication Technologies
Energy-harvesting materials for smart electronics
Self-repairing and bio-degradable electronic components
Circular economy and sustainable electronic waste management
Next-gen VLSI and ULSI eco-friendly architectures
High-efficiency RF and microwave materials
Advanced remote sensing technologies
AI-driven material design for green communications
Smart grid innovations with sustainable materials
Robotics and drone-based environmental monitoring
Secure and reliable communication protocols
Computational methods for sustainable material synthesis
Terahertz communication materials
AI-based misinformation detection in communication systems
Track 3: Materials for Control, Automation, and Industry 4.0
Intelligent materials for automation and robotics
AI-integrated sensor networks for industrial automation
Machine learning-driven adaptive control systems
Bio-compatible smart coatings for automation
Quantum-enhanced process control
Advanced AI-driven robotic applications in agriculture
Sustainable power electronics for electric mobility
High-efficiency autonomous vehicle materials
Smart materials for human-machine collaboration
Digital twin and cyber-physical systems in Industry 4.0
Track 4: Materials for Networking and Computing
Advanced photonic computing materials
AI-powered security materials for quantum networks
Future-proof materials for high-speed networking
Emerging substrates for 6G and beyond
Bio-inspired materials for secure information transfer
Edge computing hardware innovations
AI-driven networking topologies and architectures
AR/VR-assisted networking material advancements
Secure hardware-based cryptographic materials
Impacts of advanced networking materials
Low-latency materials for high-performance computing
Track 5: Applications of Material Science and Computing Technologies
Materials for next-gen biomedical implants and sensors
Hybrid material innovations for sustainable engineering
Emerging trends in smart material synthesis
AI-assisted material design and optimization
LiDAR and hyperspectral imaging material applications
High-speed computing materials for AI acceleration
Novel bio-mimetic materials for medical applications
AI-driven nano-material fabrication
Augmented and virtual reality-based material applications
Computational intelligence for material property prediction