Nanotechnology - Modultafeln of TU Ilmenau
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|module properties Nanotechnology in degree program Master Micro- and Nanotechnologies 2008|
|department||Department of Electrical Engineering and Information Technology|
|ID of group||2142 (Nanotechnology)|
|module leader||Prof. Dr. Heiko Jacobs|
|term||winter term only|
|on-campus program (h)||34|
|details of the certificate|
The grade of this course is based on
oral exam (2/3)
|signup details for alternative examinations|
|maximum number of participants||25|
|previous knowledge and experience|
While this course provides an overview of a broad range of topics it will discuss theoretical aspects tailored to benefit EE and ME students that may have limited knowledge in material science/chemistry.
The students are provided cross-disciplinary scientific knowledge and professional skills that are key to strive in high-tech companies, emerging science based industries, government laboratories, and academia.
The objective of this course is to introduce some of the fundamentals and current state-of-the-art in Nanotechnology through lectures from the instructor, selected readings, experiments, and special topic presentations from the students.
The topics that will be covered include:
NanoScale Imaging; Patterning using Scanning Probes, Conventional and Advance Lithography, Soft-Lithography, Stamping & Moldling; Nanomaterials - Properties, Synthesis, and Applications; Nanomaterial Electronics; Bottom-up/Top-Down Nanomaterial Integration and Assembly, NanoManufacturing/Component Integration using Engineered Self-Assembly and Nanotransfer. Labs on AFM, Microcontact Printing, Nanoparticles/Nanowire Synthesis.
The class size is limited to 25 students due to the LAB experiments that complement the lectures.
|media of instruction|
|literature / references|
Lecture Notes: http://www.tu-ilmenau.de/mne-nano/vorlesungen-und-praktika/
Handbook of nanoscience Engineering and Technology, Edited by William A. Goddard, III.., CRS press, 2003. Standort 69, ELT ZN 3700 G578
G. Cao, Nanostructures & Nanomaterials: Synthesis, Properties & Applications. Standort 69, ELT ZN 3700 C235
G. Ozin, A Arsenault, Nanochemistry: A Chemical Approach to Nanomaterials. Standort 55, CHE VE 9850 O99
A. T. Hubbard, ed, The Handbook of Surface Imaging and Visualization. CRC press (1995) Our Molecular Future: How Nanotechnology, Robotics, Genetics and Artificial Intelligence Will Transform the World, Prometheus (2002), ISBN 1573929921 Standort 55 PHY UP 7500 H875
|evaluation of teaching|
WS 2009/10 (Fach)
WS 2018/19 (Fach)