
Advanced Nanotechnology in Automotive
This advanced course provides an in-depth exploration of nanotechnology applications in the automotive industry, focusing on cutting-edge research, emerging nanomaterials, advanced manufacturing techniques, and next-generation vehicle innovations. Students will analyze how nanotechnology is transforming vehicle performance, fuel efficiency, safety, and sustainability while addressing challenges in large-scale production, cost-effectiveness, and regulatory compliance.
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Course Duration:
36 hours
Level:
Advanced

Course Objectives
•Analyze advanced nanomaterials and their physicochemical properties for automotive applications.
•Evaluate the role of nanotechnology in electric vehicles (EVs), hydrogen fuel cells, and next-generation batteries.
•Investigate nanotechnology’s impact on powertrain efficiency, emissions reduction, and sustainability.
•Assess challenges related to large-scale production, environmental impact, and regulatory compliance.
•Explore future trends, including autonomous vehicle integration and nanomanufacturing techniques.
Prerequisites
•Undergraduate-level knowledge of materials science, mechanical engineering, or automotive engineering.
•Understanding of fundamental nanotechnology concepts.
•Basic familiarity with vehicle systems, powertrains, and energy storage technologies.
