Significant efforts have been devoted to developing and enhancing new materials for lithium-ion batteries in order to meet the power and energy demands of mobile electronics and electric vehicles. However, the widespread adoption of large-format lithium-ion batteries is hindered by high costs, safety concerns, and shortcomings in energy density and calendar life. To address these challenges, advanced materials processing techniques can offer potential solutions. Therefore, this course provides an overview of the materials processing techniques employed for manufacturing the cathodes, anodes, and separators utilized in lithium-ion batteries.

Students are expected to have the “basic knowledge” about General Chemistry

Homework: 10%, Attendance: 10%, Mid-term: 40%, Final exam: 40%

In this class, there are some invited speakers from Industry and academia (~10 lectures). They will give a lecutre in Korean.

• Week 1: Introduction to Lithium-Ion Battery
• Week 2: Electrochemistry Basics: Electricity, Chemistry
• Week 3: Electrochemistry Basics: Electromotive force, Electric Current
• Week 4: Lithium-Ion Battery Operation 1
• Week 5: Lithium-Ion Battery Operation 2
• Week 6: Overview and Comparison of Different Lithium-ion Chemistry
• Week 7: The Cathodes
• Week 8: The Anodes
• Week 9: Inactive Materials: Binders, Electrolytes
• Week 10: Inactive Materials: Separators, Current Collectors
• Week 11: Raw Materials and Recycling
• Week 12: Lithium-ion Cell Manufacturing 1
• Week 13: Lithium-ion Cell Manufacturing 2
• Week 14: Next Generation and beyond lithium chemistries 2
• Week 15: The Future and Energy Storage

Lecturer: Prof. Gi-Ra Yi, Prof. Changshin Jo, and leading experts from Industries