课程基本信息（Course Information）

课程代码

（Course Code）

*学时

（Credit Hours）

16

*学分 （Credits）

1

*课程名称 （Course Name）

（中文）新型电池技术

（英文）Advanced Battery Technologies

课程性质  (Course Type)

专业前沿课 Specialized Course

授课语言 (Language of

Instruction)

英文 English

*开课院系（School）

中英国际低碳学院 China-UK Low Carbon College

先修课程 （Prerequisite）

授课教师（Teacher）

周叶 (Ye Zhou)

课程网址(Course

Webpage)

*课程简介

本课程主要针对不同前沿储能电池结构、基本工作原理、研究现状以及未来前景与挑战进行介绍。课程为研究生前沿课程。

课程旨在使学生系统地了解当前各类前沿储能电池技术，加深学生对于各类前沿储能电池工作原理、优势及现有局限性的理解，提高其对未来储能技术发展趋势的判断和分析能力。

本课程主要涵盖了化学储能电池基础理论介绍以及对各类前沿储能电池技术（如全固态锂金属电池、钠离子及全固态钠电池、金属-空气电池以及锂硫等二次电池）工作原理、电极材料及研究进展的介绍。

* Description

This course introduces the structure, working principles, recent progress,

prospects, and future challenges of various advanced battery technologies. It is a specialized course targeting graduate students.

This course aims to equip graduate students with a general idea about the current advanced battery technologies, strengthen their understanding of the

working principles, advantages, and limitations of the advanced battery technologies and help students develop critical thinking skills.

This course briefly overviews the fundamentals of battery chemistries and further introduces the working principles, key battery materials, and current research progress of various battery technologies (including the all-solid-state lithium metal batteries, sodium-ion and all-solid-state sodium batteries, metal-air, lithium-sulfur batteries, and other advanced batteries).

课程教学大纲（Course Syllabus）

*学习目标(Learning

Outcomes)

Upon completion of this course, the students should be able to:

1)   explain the important terminologies associated with batteries and classify batteries based on rechargeability

2)   describe the general failure mechanism of the mainstream lithium-ion batteries

3)   understand the various advanced battery chemistries and their basic working principles

4)   list the factors affecting the cycle life, fast-charging ability, and safety of rechargeable batteries

5)   explain the challenges facing the all-solid-state batteries

6)   describe   the   advantages    and   limitations    of  various   advanced   battery technologies

7)   predict the prospects for the future rechargeable battery technologies

*教学内容、进度

安排及要求

(Class Schedule

& Requirements)

Chapter

Course Content

Credit hours

Chapter 1

Introduction

Fundamentals  of battery  chemistries, fair evaluation of rechargeable battery performance

2

Chapter 2

All-solid-state

lithium metal

batteries

Lithium-ion battery safety, solid-state electrolyte    types    and    evaluation parameters,  lithium  dendrite  growth, and    solid-solid    interface    stability issues in all-solid-state lithium metal batteries

3

Chapter 3

Sodium-ion and all- solid-state sodium

batteries

The working principles of sodium-ion batteries,   electrode   materials,   and challenges  of  all-solid-state   sodium batteries

3

Chapter 4

Metal-air batteries

The       working       principles       and reversibility of metal-air batteries, the cathode reaction in metal-air batteries, the recent progress  and prospects  of different metal anode materials

3

Chapter 5

Lithium-sulfur and

other advanced

batteries

The  working  principles,  the  recent progress, and prospects ofthe lithium- sulfur, potassium-ion, and calcium-ion batteries

2

Assessment

Group Project (oral presentation)

3

*考核方式(Grading)

Attendance and active participation (30%)

Project (oral presentation, 70%