方向:理工
专业:工程
适合人群:电子电气工程,电磁学,工程,材料科学
是否可以加论文:是
项目时长及形式:英文
产出:
7周在线小组科研学习+5周论文辅导学习 共125课时
学术报告
优秀学员获主导师Reference Letter
EI/CPCI/Scopus/ProQuest/Crossref/EBSCO或同等级别索引国际会议全文投递与发表(可用于申请)
结业证书
成绩单
全球最大教育评估认证组织Cognia(原AdvanceED)及 College Board权威认证高中学分
项目介绍:
项目从传统能源材料与新能源材料的异同切入,进而带领学生走进种类繁多的新能源材料世界。其中将会涉及到诸多纳米技术与电池材料基本原理,如物理化学、金属材料、固体物理和电化学中关于材料的结构组成、制备、性能、能量存储与转换等多学科交叉的知识。在整个项目中,我们将以特斯拉的电池材料为主线举例,让学生在接受理论的同时了解到其最新的工业应用。学生将在项目结束后,提交项目报告,进行成果展示。
个性化研究课题参考:
特定类型的电池及其整体结构对电池寿命的影响
不同类型的电解质?固体电解质及液体电解质
合理提高电池能量密度的监管问题
电动汽车车架和车厢使用的复合材料及其质量效应
This project starts with discussing the similarities and differences between traditional energy materials and new energy materials and leads students into the world of new energy materials. This project will involve many basic principles of nanotechnology and battery materials, such as physical chemistry, metal materials, solid-state physics and electrochemistry on the structure, preparation, performance, energy storage and conversion of materials, and other interdisciplinary knowledge. Tesla’s battery materials will act as an example throughout the project, students can understand the latest industrial applications. Students will submit a research report at the end of this project to show their results.
Suggested Future Research Fields:
The impact of specific types and overall structure of batteries on battery life
Different types of electrolytes---solid electrolytes and liquid electrolytes
Regulatory issues for rationally increasing battery energy density
Composite materials used in electric vehicle frames and compartments and their mass effects
更多留学问题欢迎咨询晨晟留学之家,电话(同微信) 18071732056