Call for papers
FAQ
Call for papers
The International Conference on Nanomaterials and Emerging Engineering Technologies (ICNEET-2025) invites original research contributions, case studies, and visionary proposals from researchers, scientists, engineers, industry leaders, and policy-makers around the world. This multidisciplinary platform aims to spotlight the latest advances in nanomaterials, Nano-enabled systems, and disruptive engineering technologies that foster sustainability, smart innovation, and industrial transformation.
ICNEET-2025 is committed to driving interdisciplinary innovation through nanomaterial-based engineering. The conference will feature thematic tracks, keynote sessions, workshops, and industry-led panels designed to shape the future of smart, sustainable, and scalable nanotechnology solutions.
- Functional nanomaterials for energy conversion and storage
- Nanostructures for solar cells, batteries, and supercapacitors
- Nanotechnology for water purification and desalination
- Carbon-based nanomaterials: graphene, CNTs, fullerenes
- Nano catalysts for green hydrogen and chemical synthesis
- Nano-biomaterials for implants and tissue engineering
- Antimicrobial, antiviral, and drug-delivery nanomaterials
- Nanocomposites for environmental remediation
- Nanotechnology in food packaging and shelf-life extension
- LCA and sustainability analysis of nanomaterial applications
- Quantum dots, photodetectors, and Nano transistors
- Flexible and stretchable electronics using 2D materials
- Nanoelectromechanical systems (NEMS)
- Thin film transistors and nanoscale integrated circuits
- Optical Nano devices and plasmonic components
- Nanostructured sensors for biomedical and industrial use
- Nano photonics and optoelectronic devices
- Energy-efficient and low-power Nano electronics
- Internet of Nano Things (IoNT) and smart wearable tech
- AI-assisted design of nanoscale devices and circuits
- Bottom-up and top-down nanofabrication methods
- Green synthesis and eco-friendly production methods
- Characterization tools: SEM, TEM, AFM, XRD, etc.
- Atomic layer deposition and self-assembly techniques
- Surface engineering and Nano-coating technologies
- High-throughput screening and process scaling
- Nanomaterials stability, toxicity, and lifecycle analysis
- Advances in Nano metrology and quality assurance
- Functional printing of nanostructures
- Smart nanostructured interfaces and coatings
- Nanomaterials for soft robotics and micro machines
- Nano-enhanced MEMS/NEMS for control systems
- Autonomous systems and Nano-actuators
- Nanotechnology in intelligent transport systems
- Smart textiles and Nano-sensors in wearables
- Self-healing materials and nanobots
- AI-integrated Nano devices for automation
- Nano-IoT and communication-enabled sensors
- Human-machine interaction via nanotech interfaces
- Cyber-physical systems with nanoscale components
- Scalable Nano-manufacturing systems and tools
- Nano-enabled green manufacturing processes
- Circular design in nanomaterial innovation
- Recycling, recovery, and reusability of nanomaterials
- Zero-waste Nano-fabrication techniques
- Nanotechnology for carbon neutrality and climate action
- Resource-efficient and low-impact production chains
- Blockchain and traceability in Nano supply chains
- Certification and regulation for sustainable nanotech
- Industrial case studies on sustainable Nano-enterprises
- Machine learning for predictive nanomaterial design
- Computational nanotechnology and quantum simulations
- Multiscale modeling of Nano-interfaces
- Digital twins for nanomaterial behavior and lifecycle
- Physics-based modeling of nanoscale phenomena
- Neural network approaches to property prediction
- Molecular dynamics and density functional theory (DFT)
- Nano-structural failure and reliability analysis
- Intelligent data systems in material design
- Virtual screening and algorithmic nanodesign
- Nanotech curriculum development and experiential learning
- Ethical, legal, and societal implications (ELSI) of nanotech
- Startups and commercialization in nanotechnology
- Policy frameworks for nano safety and governance
- Academia-industry-government innovation models
- Women and diversity in nanoscale science and tech
- Capacity-building in developing economies
- Open-access platforms for nanotech research
- IP, patents, and international trade in nanotech
- National missions and funding for advanced materials R&D
