||Nanoionics is an emerging interdisciplinary subject, which has a wide range of applications in the fields of new types of information storage devices, logic devices, neuromorphic devices, brain-like computing chips, lithium batteries, fuel cells and other energy storage devices and sensors. Nanoionics focuses on the ionic transport properties of solid electrolytes at the microscale, covering physics, chemistry, electrochemistry, materials science, and microelectronics about the phenomenon of ion transport in solids and the resulting electrical, Optical and other properties. In the past two decades, the research on nano-ionology has shown a rapid growth, occupying an important position in the development of information science and technology, new energy, and brain-like computing. The main purpose of this course is to enable students to master the physical basics of nano-ionology and nano-ion devices related to the current new information, energy storage, and sensing technologies, to understand the latest research development trends in related fields, and to focus on the theoretical physics Images provide necessary professional theoretical knowledge and methods for students interested in related fields or engaged in related research.
The main content of this course includes the development history of nano-ionology, the theory of ion transport in solids, defect chemistry, typical nano-ion materials and properties, fuel cells, lithium-ion batteries, non-volatile resistive memory, sensors, etc.
Solid State Ionics for Batteries,T. Minami,Springer,2005；
Solid State Ionics for Batteries,T. Kudo and K. Fueki,Wiley-VCH Verlag GmbH,1990；
Electrochemistry,C. H. Hamann, A. Hamnett and W. Vielstich,Wiley-VCH Verlag GmbH,2007；
Solid State Physics,N. W. Ashcroft and N. D. Mermin,Thomson Learning,1976；
Transport in Nanostructures,D. K. Ferry and S. M. Goodnick,Cambridge University Press,1997；
Nanoionics,L. M. Surhone, M. T. Tennoe and S. F. Henssonow,VDM Publishing,2011；
Materials Science Foundation, Pan Jinsheng, Tong Jianmin, Tian Minbo, etc., Tsinghua University Press,2011；
Memristors and Memristive Systems,R. Tetzlaff,Springer,2014；
|Advanced Material Characterization Technology and Experimen
Advanced material characterization technology is an important part of materials, devices, circuits, and engineering. It is the basis for understanding and regulating performance. It is also a bridge between the structure and composition of the micro world and the performance of macro materials, devices, and circuits. The content selection of this course covers the current advanced material characterization techniques, including chemical composition analysis methods, chemical valence analysis methods, spectroscopy analysis methods, nondestructive testing, electron microscopy, local and in-situ devices and circuits, and in situ Analysis methods, etc., focus on two aspects of subject teaching and hands-on practice, and strive to reflect the latest research development trends in related fields. At the same time, the arrangement of course content will take into account the actual needs of professional research and the needs of systemicity and integrity of the theory. It will focus on the physical images of related theories, and provide necessary information for students interested in related fields or engaged in related research. Professional theoretical knowledge and methods. A major feature of this course is that both course teaching and experimental teaching are emphasized. A large number of experimental lessons are supplemented to the basic knowledge of the classroom to enable students to personally contact the most advanced material characterization equipment, so as to grasp the theoretical knowledge and experiments skill.
Handbook of microscopy for nanotechnology，Volume II Electron Microscopy,Yao Nan, Wang Zhonglin, Tsinghua University Press,2005；
Handbook of Material Characterization and Detection Technology, Xu Zuyao, Huang Liben, Tong Guoqiang, Chemical Industry Press, 2009；
Modern Research Methods of Materials Physics, Ma Ruyi, Xu Zuxiong, Metallurgical Industry Press, 1997；
Transmission Electron Microscopy,David B. Williams and C. Barry Carter,Plenum Press,1996；
High Resolution Electron Microscopy, Guo Xinxin, Ye Hengqiang, Science Press, 1985；
Material Structure Characterization and Application, Wu Gang, Chemical Industry Press；
Modern Analytical Technology, Lu Jiahe, Chen Changyan, Tsinghua University Press；
Fundamentals of Materials Science, Pan Jinsheng, Tong Jianmin, Tian Minbo, etc., Tsinghua University Press, 2011；
Introduction to Analytical Electron Microscopy, Rong Yonghua, Higher Education Press, 2006；
Elements of X-ray Diffraction,B. D. Cullity,Addison-Wesley,1978；