Program Description: New Energy Materials and Devices
The Bachelor of Engineering in New Energy Materials and Devices is an interdisciplinary program designed to address the global challenges of energy sustainability and environmental protection. It integrates fundamental principles from materials science, chemistry, physics, and electronic engineering to equip students with the knowledge and skills to develop next-generation energy conversion and storage technologies.
The curriculum focuses on the design, synthesis, characterization, and application of advanced materials for clean energy. Core areas of study include:
• Energy Storage: Principles and materials for rechargeable batteries (e.g., lithium-ion, solid-state) and supercapacitors for electric vehicles and grid storage.
• Energy Conversion: Technologies such as photovoltaic solar cells, fuel cells, and thermoelectric generators that convert sunlight, chemical energy, or heat into electricity.
• Hydrogen Energy: Hydrogen production (e.g., water electrolysis), storage, and utilization in fuel cells.
• Advanced Materials: In-depth study of functional materials, including semiconductors, nanomaterials, thin films, and porous materials tailored for energy applications.
• Device Fabrication and Testing: Hands-on training in fabricating, assembling, and testing the performance and durability of energy devices.
Graduates are prepared for careers in research and development, engineering, and production within the rapidly growing new energy industry, including sectors like renewable energy, electric transportation, and advanced battery manufacturing.
Graduates in New Energy Materials and Devices typically work in R&D, production, and management within the clean energy sector. Key roles include battery engineer, photovoltaic specialist, materials scientist, and energy storage analyst. They develop advanced materials like lithium-ion batteries and solar cells, optimize manufacturing processes, and contribute to sustainable technology innovation for companies in renewables, EVs, and electronics.
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