Curriculum
Graduate School of Next-Generation Secondary Batteries Curriculum
| Course Name | Course Classification | Credits | Course Discription |
|---|---|---|---|
| Non-Lithium Secondary Batteries | Major Elective | 3 |
This course focuses on understanding various materials and their electrochemical properties, as well as identifying the development trends of next-generation energy storage systems. Through this course, students will deeply study the principles, materials, and applications of non-lithium secondary batteries, while strengthening their research and practical skills in related industrial fields. |
| Recycling and Reuse of Used Batteries | Major Elective | 3 |
This course delves into various technologies and industry trends related to the recycling and reuse of used batteries. Key topics include battery pre-treatment and post-treatment processes, precious metal recovery technologies, battery safety evaluation and testing certification procedures, and processing standards and industrial expansion strategies for battery remanufacturing and reuse. Through this course, students will gain a comprehensive understanding of the importance of waste battery management, technical challenges, and industrial opportunities. |
| Next-Generation Battery Materials and technology | Major Required | 3 |
This course aims to provide an in-depth understanding of the key materials development and manufacturing processes behind next-generation battery technologies. It covers innovative materials used in various battery systems, as well as the design and optimization methods of manufacturing processes utilizing these materials. Through this course, students will enhance their expertise in battery material development and manufacturing. |
| Advanced Topics in Next-Generation Batteries | Major Elective | 3 |
This course covers the technical principles and latest research trends of next-generation battery systems with high energy density, high safety, and sustainability, going beyond traditional lithium-ion batteries. Topics include silicon/sulfur anodes, solid-state batteries, lithium-sulfur/lithium-air batteries, sodium-ion batteries, aqueous batteries, and secondary battery recycling. The course examines the materials, design, electrochemical reactions, performance evaluation, and commercialization challenges of each system. |
| Battery Production and Performance Evaluation | Major Required | 3 |
This course focuses on in-depth learning of various methods and technologies for evaluating the manufacturing process and performance of batteries. Through this, students will acquire the specialized knowledge required for battery quality control and performance analysis. |
| Battery Safety | Major Elective | 3 |
This course focuses on in-depth learning of various theories and technologies to ensure the safety and reliability of batteries. Through this, students will systematically understand battery safety evaluation, risk analysis, safety design, and management strategies. |
| Battery Management System Engineering | Major Elective | 3 |
This course covers the theories and technologies for the efficient management and operation of battery systems, aiming to optimize battery performance, extend lifespan, and ensure safety. Through this course, students will acquire the specialized knowledge needed for the design, analysis, and operation of battery management systems. |
| Advanced Electrochenisry of Secondary Battery | Major Required | 3 |
This course aims to understand the basic principles, components, and electrochemical properties of batteries. Through this course, students will learn the operating principles of batteries, the characteristics of electrode and electrolyte materials, and the factors that affect battery performance and lifespan. |
| Advanced Material Chemistry of Secondary Battery | Major Elective | 3 |
This course aims to provide an in-depth understanding of the chemical properties and operating principles of the key components of secondary batteries: cathode, anode, electrolyte, and separator materials. Through this course, students will learn the application technologies and latest research trends of these materials based on electrochemical and solid-state chemistry concepts. |
| Analysis of Secondary Battery Materials | Major Required | 3 |
This course covers the technologies and methodologies for analyzing and evaluating the physical and chemical properties of materials that significantly impact the performance and stability of secondary batteries. Through this course, students will develop the ability to assess the quality and characteristics of battery materials using various analytical techniques. |