Advanced Nanotechnology in Energy Production & Storage
This advanced course provides an in-depth exploration of the role of nanotechnology in revolutionizing energy production, conversion, and storage systems. It covers advanced nanomaterials, their synthesis, functionalization, and integration into energy devices such as solar cells, batteries, fuel cells, and supercapacitors. Students will engage with cutting-edge research and emerging trends, focusing on the challenges and opportunities of deploying nanotechnology in large-scale energy applications.
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Course Duration:
24 hours
Level:
Advanced
Course Objectives
Deepen understanding of advanced nanomaterials and their applications in energy systems.
Explore cutting-edge nanotechnologies in energy conversion (solar, thermoelectrics, fuel cells) and storage (batteries, supercapacitors, hydrogen storage).
Investigate the synthesis, characterization, and scale-up challenges of nanomaterials in energy applications.
Examine the integration of nanotechnologies into real-world energy infrastructure and smart grids.
Assess the environmental, economic, and regulatory aspects of nanotechnology-based energy solutions.
Prerequisites
Advanced knowledge of materials science, nanotechnology, and energy systems.
Background in chemistry, physics, and engineering principles related to energy technologies.
Prior coursework or research experience in nanotechnology (recommended).
