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The course is designed for students who want to obtain knowledge of the application of nanomaterials and nanostructures in microelectronics. The introduction is focused on the basic parameters of electronic elements. Next part of the course deals with a list of important materials and technological operations in electronics. The course also covers the reduction of structure dimensions, special transistors and post-silicon electronics. Finally students obtain information concerning memory structures and spinctronics principles.
Last update: TAJ126 (28.11.2013)
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Students will be able to know: Properties of basic electronic elements and structures (PN junction, unipolar and bipolar transistors). Outline of materials applied in microelectronics together with technological processes for the preparation of nanostructures. Problems of dimension reduction in microelectronics, the structures of advanced transistors and material fundamentals of post-silicon electronics. Principles of memory structures, fundamental principles of spintronics. Last update: TAJ126 (28.11.2013)
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R: R. Waser: Nanoelectronics and Information Technology, Advanced Electronic Materials and Novel Devices. WILEY-VCH Verlag 2005,ISBN 3-527-40363-9 R: P. Macháč, V. Myslík: Struktury a technologie mikroelektroniky I. Skriptum VŠCHT, Praha 1989. R: J. Voves: Kvantové elektronické struktury. Skriptum ČVUT, Praha 1995, ISBN 80-01-01350-2 A: I Adamčík: Struktury a technologie mikroelektroniky, Skriptum ČVUT, Praha 1996, ISBN 80-01-00762-6 Z: S. Luryi, J.M. Yu, A. Zaslavsky: Future trends in microelectronics, Jihn Wiley and Sons, Inc. 2007, ISBN 978-0-470-08146-4 Last update: MACHACP (03.09.2015)
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1. History of electronics and integrated circuits, density of integration, Moor‘s law. 2. Principles of electronic elements. 3. PN junction. 4. MOSFET transistor. 5. Bipolar transistor. 6. Basic materials. 7. Technology of nanostructure preparation. 8. Problems of dimension reduction of electronic elements. 9. Application of MOS transistors in microelectronics. 10. Application of carbon. 11. Special transistors. 12. Semiconductor memories. 13. Magnetic and optic memories. 14. Principle of spintronics, application. Last update: MACHACP (28.08.2013)
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http://www.roznovskastredni.cz/dwnl/pel2009/05/musil.pdf http://www.integrovaneobvody.euweb.cz/OdPohyblivosti.pdf http://www.learned.cz/userfiles/pdf/prednasky-cleny-odborne/tomas.jungwirth_1209.pdf http://www.roznovskastredni.cz/dwnl/pel2005/05/musil.pdf Last update: MACHACP (28.08.2013)
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N126026 Introduction to nanomaterials N126012 Introduction to Electronics N108006 Chemistry and physics of solids or N108004 Introduction to study of materials N126027 Physical chemistry of nanomaterials Last update: TAJ126 (18.01.2016)
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| Teaching methods | ||||
| Activity | Credits | Hours | ||
| Konzultace s vyučujícími | 0.5 | 14 | ||
| Účast na přednáškách | 1 | 28 | ||
| Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi | 0.5 | 14 | ||
| Příprava na zkoušku a její absolvování | 1 | 28 | ||
| 3 / 3 | 84 / 84 | |||
| Coursework assessment | |
| Form | Significance |
| Oral examination | 100 |