Semester 9
Course: Microtechnology and Nanotechnology
| Course Code: | Ε5 |
| Course Level: | Undergratuate |
| Obligatory/Elective: | Elective |
| Semester: | 9 |
| Division: | Division of Telecommunications |
| Group: | Group A |
| ECTS Credits: | 5 |
| Hours Per Week: | 4 |
| Website: | eclass.uowm.gr/courses/ICTE170/ |
| Language: | Greek |
| Content: |
- Introduction to Microtechnology and Nanotechnology.
- Background on micro and nano scales.
- The special tip of the nano - scale to the development of science.
- Machines, tools and instruments used in nano - sciences.
- Technology integrated circuit fabrication processes to clean and high quality workshops.
- Advanced applications Microtechnology and Nanotechnology (Biology , Medicine, BioMEMS, Space, Environment, Communications, Electronics and Sensors, Energy and Materials) .
- Examples of applications in Nanoelectronics and reference to the latest research developments such as organic electronics and graphene.
- Legislation in Nanotechnology (Nanotoxicity / Public Policy).
- Report on future developments and applications of Nanotechnology.
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| Learning Outcomes: | This course provides a general microtechnology-nanotechnology overview with sections on all the main areas The basics are covered to familiarise the student with the terms, concepts and tools most used in microtechnology and nanoscience/ nanotechnology researchers and engineers. By describing some of the discoveries can change the students understanding of how things work in micro-nano scale and can focus their own creative energy towards tackling important science and engineering questions for continuation of their studies at postgraduate level. |
| Pre-requirements: | - |
| Teaching Methods: | Lectures, Preparation of three homework assignments including a PowerPoint Presentations in the class (around 25 slides) and a Written Assignment Report of about 2.500 words for each exercise. Selected Laboratory Exercises. |
| Validation: |
- Presentation (20-25 slides and delivery of a written assignment report (2500 words) for three tasks with different themes.
- Final Course Grade (100%): Final written examination theory (necessary to achieve at least 5 (the base) in order to pass the module) = 40% and Average Grade of the Report Assignments = 60%
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| Suggested Books: |
- Hanson George W., Αρχές Nανοηλεκτρονικής, ΕΚΔΟΣΕΙΣ Α. ΤΖΙΟΛΑ & ΥΙΟΙ Α.Ε., 2009.
- Williams Linda and Adams Wade, Nanotechnology Demystified, Εκδόσεις Επίκεντρο, 2006.
- Παπασπυρίδης Κ, Παυλίδου Σ, Νανοτεχνολογία και προηγμένα πολυμερικά υλικά, ΑΡΗΣ ΣΥΜΕΩΝ, 2012.
- Jeremy Rasden, Nanotechnology: An Introduction, Published by Elsevier Inc., 2011.
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