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
项目介绍:
本项目从固体物理学的基础原理入手,带领学生探究光-电作用原理,并详细介绍半导体器件基本构件――光电转化PN结二极管,光电子器件的操作原理,PN结二极管的工作模式及其作为不同光电器件的功能, 运行效率,性能限制。并以LED、激光器、光电探测器和太阳能电池等常用光电器件为具体实例,研究其工作原理及在人们日常生活中的应用。学生通过本项目的学习,可以进一步对固体物理学和半导体光电器件设计原理及工作原理有更为深刻的认识,在项目结束时提交项目报告,进行成果展示。
个性化研究课题参考:
柔性光电探测器的设计原理
太阳能光电?热一体化与热泵耦合系统性能研究
纳米结构二氧化钛光电性能探究
This project will introduce the basic principles of solid-state physics, lead students to explore the principle of electron-photon interaction, and introduce the basic components of semiconductor optoelectronic devices - PN junction diodes, the operating principles of optoelectronic devices, and the working modes and functions of PN junction diodes. The functions, operating efficiency, and performance limitations of different optoelectronic devices will be also discussed. Taking LED, laser, photodetector, solar cell and other commonly used optoelectronic devices as specific examples to study their working principle and application in people's daily life. Through the study of this project, students can have a deeper understanding of solid-state physics and design principles of semiconductor optoelectronic devices, and submit a project report at the end of this project to display their results.
Suggested Research Fields:
Design principle of flexible photodetector
Research on performance of solar photovoltaic-thermal integration and heat pump coupling system
Research on the Optical and Electrical Properties of Nanostructured Titanium Dioxide
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