MECHENG 599 Batteries
MECHENG 599 - Principles, Materials, Manufacturing, and Devices of Batteries (2024 Fall) (Graduate & Undergraduate)
Curriculum Developer and Instructor: Prof. Jing Tang
Developed MECHENG 599: Principles, Materials, Manufacturing, and Devices of Batteries, a university-wide undergraduate and graduate course at the University of Michigan. Established an innovative educational platform that integrates fundamental knowledge, pilot-scale projects, professional skills training, and career development in battery chemistries, materials, and manufacturing.
Held Weekly: Tuesday & Thursday 9-10: 30 AM, 2166 Dow Engineering Building, August 26 - December 18, 2024
Office Hours: After Class or By Appointment via Email
Course Description:
This comprehensive course is designed to give students an in-depth understanding of various aspects of batteries, encompassing manufacturing processes. Beginning with exploring thermodynamics and electrochemistry, the course emphasizes lithium-ion batteries, which play a pivotal role in modern energy storage systems. It covers a broad spectrum of battery types, including lead-acid, nickel-metal hydride, metal-air, sodium-sulfur, and redox flow batteries, ensuring a well-rounded comprehension of battery technology. Throughout the course, students will learn about essential components such as electrode materials, electrolytes, separators, additives, and the intricate electrode-electrolyte interface. Furthermore, the curriculum thoroughly examines advanced electrochemical techniques, the incorporation of nanotechnology in battery materials, and the structural design of battery devices, providing students with a comprehensive understanding of battery systems, including their manufacturing processes. Given the increasing interest in lithium-ion (Li-ion) technology, the course addresses fundamental electrochemistry and materials science principles and offers insights into battery pack designs and performance characteristics. Moreover, it fosters discussions on innovative strategies to advance Li battery technology, preparing students to confront emerging challenges in the field. Ultimately, this course aims to equip students interested in battery research, development, and integration into electric vehicles (EVs) and various other applications with the knowledge and skills to effectively navigate this dynamic and rapidly evolving field. By offering a solid foundation in principles, materials, manufacturing, and devices of batteries, this course empowers students to make meaningful contributions to advancing energy storage technologies and their applications across diverse industries.
