麻省理工学院化学、材料、能源科研
Chemical, materials and energy research program of Massachusetts Institute of Technology
麻省理工学院(Massachusetts Institute of Technology, MIT),创立于 1861年,坐落于美国马萨诸塞州剑桥市(大波士顿地区),是世界著名私立研究型大学。作为世界顶尖高校,麻省理工学院(MIT)尤其以自然及工程学享誉世界,位列 2015-16 年世界大学学术排名(ARWU)工程学世界第 1、计算机科学第2,与斯坦福大学、加州大学伯克利分校一同被称为工程科技界的学术领袖。截止2016 年,麻省理工共走出了 19 位图灵奖(计算机界最高奖)得主;先后有87 位诺贝尔奖得主在麻省理工学院工作或学习过。
科研主题: 麻省理工化学材料能源顶尖科研; 科研导师:麻省理工化学材料能源类专业导师; 科研地点:麻省理工科研组或会议室;
科研时间:寒假,暑假,每期时间长度为 4 周左右;具体情况根据学生面试情况由美方进行调整;
报名后 1 周安排面试,面试前辅导学生阅读 1 篇专业论文;
招募对象:大学生及优秀的高中生科研内容:
Tutoring Subject: Frontiers in energy storage unit Supercapacitor
Introduction: This research course is a summary of several research frontiers in Materials Science & Engineering at Massachusetts Institute of Technology (MIT). In this course, students will be introduced to the top research in MIT, including latest energy storage units in the world, Li-ion batteries, supercapacitors, and latest electrode materials for supercapacitors. Upon completion of this course, students should have comprehensive knowledge about materials science & engineering, as well as know the cutting-edge researches in MIT.
Schedule: (Note: Below is the general schedule for everyone.)
Week 1
Class 1: Energy storage systems for electric vehicle applications Time:
Location: NW14-2208, MIT Nuclear Reactor Lab, 150 Albany Street, Cambridge, MA
Homework 1: Write a summary of latest energy storage units in the world
Reference:
1, Review of energy storage systems for electric vehicle applications Issues and challenges,
http://www.sciencedirect.com/science/article/pii/S1364032116309182
2, Chinas energy storage industry Develop status, existing problems and countermeasures,
http://www.sciencedirect.com/science/article/pii/S1364032116311595
Class 2: Challenges in the development of advanced Li-ion batteries Time:
Location: NW14-2208, MIT Nuclear Reactor Lab, 150 Albany Street, Cambridge, MA
Homework 2: Write a summary of challenges in the development of advanced Li-ion batteries
Reference:
1, Review of energy storage systems for electric vehicle applications Issues and challenges,
http://www.sciencedirect.com/science/article/pii/S1364032116309182
Class 3: Supercapacitors Time:
Location: NW14-2208, MIT Nuclear Reactor Lab, 150 Albany Street, Cambridge, MA
Homework 3: Write a summary of supercapacitors Reference:
1, A review on electrochemical double-layer capacitors,
http://www.sciencedirect.com/science/article/pii/S0196890410002438
Week 2
Class 4: Latest electrode materials for supercapacitors Time:
Location: NW14-2208, MIT Nuclear Reactor Lab, 150 Albany Street, Cambridge, MA
Reference:
1, Supercapacitors: Review of Materials and Fabrication Methods,
http://ascelibrary.org/doi/abs/10.1061/(ASCE)EY.1943-7897.0000102
Class 5: Nano-network MnO2 /polyaniline composites with enhanced electrochemical properties for supercapacitors
科研收获:
1. 挑战自身潜能,切身体会世界理工之最——麻省理工学院严苛的学术氛围。通过参加 2~4 周紧张而丰富的科研,学生能亲身体会国际精英们在这样的学术氛围下如何完成自身成长;
2.极大拓宽学生视野。麻省理工学院(MIT)作为世界顶尖高校,尤其以自然及工程学享誉世界,其机械工程系是 MIT 的重点科系。处在这样一个学习氛围下,能够让学生拥有国际视野,了解到世界顶尖的设计行业在研究的课题和内容以及世界最新发展态势,从而对整个行业有更清晰的认知;
3.学生将有机会获取该产业第一手现实资料;
4.科研完成后,学生将会全面了解并体会到麻省理工学院的授课及培养流程,并对化学材料能源有个完整的认知,将对学生今后的专业选择以及后续专业课程学习帮助。
5.同时,经过 2~4 周的美国学习生活,学生能够为将来的赴美留学打下基础,并且能够根据自身情况对未来有更清晰的规划。在面临人生选择和确定发展方向的十字路口,这一段经历将会成为学生十分宝贵的财富。
6.全英文交流,快速提升语言成绩。表现好的同学将获得导师的推荐信。
