国家纳米科学中心与其他国家共同参与由欧盟伊拉莫斯计划(Erasmus+ action)资助的能力建设项目(CPBs)。欧盟能力建设项目(CPBs)是跨国合作的高等教育建设项目,旨在促进欧盟和合作国家的高等教育机构建立伙伴关系。目前参与的合作国家包括中国、马来西亚、印度、挪威、意大利和以色列。该项目旨在支持高等教育实现现代化、普遍化和国际化。
基于此,国家纳米科学中心将参加其中纳米电子学为期三年的建设项目。内容包括基于现存问题、就业情况和课程体系对教育需求进行分析,设计相关的课程体系和网络课堂,建设高水平实验室和交流项目以及开展先导性实验。该项目将有利于促进国家纳米科学中心和中科院大学的现代化和国际化建设。
纳米中心裘晓辉、何军、贺涛和谢黎明研究员参与了该项目。他们负责的课程分别如下:
1) 纳米电子材料(Nano Electronic Materials )
授课老师:谢黎明
This course will first give a general review on nano electronic materials, including structure, synthesis and properties. And then introduce typical nano electronic materials in details (quantum dots, nanowires, carbon nanotubes, graphene, two-dimensional materials beyond graphene).
2) 纳米体系中的量子隧道现象(Nanoelectronics Quantum phenomena in nanoscale systems )
授课负责老师:裘晓辉
The course will cove-r the following areas:concepts in electron transport,current flow in nanostructures,mesoscopic electron transport, the qu-antization of charge, and conductance and their consequences for transport,Landauer(transmission)formalism. The chose-n examples will include quantum wires,low dimensional se-miconductor structures,quantum dots,grapheme ,carbon nanotubes,molecular transistors,and other timely subjects in nanoe-lectronics.One session will be devoted to nano fabrication. The course also includes two laboratory experiments: A. Measurement of the Quantum Hall effect and Shubnikov de Haas oscillations in a two dimensional electron gas at low temperatures(4 Kelvin) B. Fabrication (or measurements) of grapheme quantum dots.
3) 太阳能利用的纳米技术(Nanotechnology for Solar Energy Utilization)
授课负责老师:贺涛研究员
Because of concerns regarding energy security, environmental crisis, and the rising costs of fossil-fuel-based energy, there has been significant, resurgent interest in utilization of solar energy recently due to its clean nature and abundance of the source. Unfortunately, the utilization efficiency is still pretty low, which dramatically limits the wide use of solar energy. Nanotechnology may afford a solution to this. Thus, the major goal of this course is to provide the students general concepts and state-of-the-art developments in the field of nanotechnology for solar energy utilization.
4) 功能纳米结构:合成,表征和器件应用(Functional Nanostructure: Synthesis, Characterizations and Device Applications)
授课负责老师:何军
This course includes three sections: inorganic semiconductor nanostructures, organics functional nanostructure and characterization of nanomaterials. The first section provides atoms-to-device introduction to the latest semiconductor quantum heterostructures. It covers nanostructures growth, their electronic, optical, and transport properties, their role in exploring new physical phenomena, and their utilization in devices. For the second part, by studying of this section, student should know the history and principles of organic electronics, understand how to use various strategies to produce organic functional nanomaterials, get the ideas how to construct organic electronic and optoelectronic devices, including filed effect transistors, light emitting diodes, and photovoltaics. The third provides Electron microscopic characterization of nanomaterials, Spectroscopic characterization of nanomaterials and some latest applications of nanomaterials.