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Code Completion Credits Range Language
BE0B13NNT Z,ZK 4 2P+2L English

In order to register for the course BE0B13NNT, the student must have registered for the required number of courses in the group BEZBM no later than in the same semester.

Garant předmětu:
Pavel Ctibor
Václav Bouda, Pavel Ctibor, Vladimír Sychrovský, Jan Voves
Ivana Beshajová Pelikánová, Václav Bouda, Pavel Ctibor, Vladimír Sychrovský, Jan Voves
Department of Electrotechnology

The course is under way of essential convergence of the nano-bio-info fields in nanoscale. The lectures are focused on the characterization of nanostructures, growth of fractals and nanostructures and self-assembly of nanostructures, top-down and bottom-up processes, nanomaterials like nanotubes and graphene, application in nano-electro-mechanical systems, new materials, medicine, new sources of energy, and bio-inspired nano-structures like atificial tissues.


The course is based on the secondary knowledge of mathematics and natural sciences - physics, chemistry and biology.

Syllabus of lectures:

1 Introduction

2 Diagnostics of nanostructures

3 Fractals, diffusion limited aggregation

4 Physics of colloids

5 Application of colloids physics in NNT

6 Carbon nanomaterials

7 Nanomaterials

8 Inorganic nanomaterials

9 Plasma physics

10 Sparking plasma sintering

11 Vertical morphology of nanostructures

12 Horizontal nanostructures

13 Nanoelectronics

14 DNA, Biomimetics, Drag targeted transport

Syllabus of tutorials:

1 Introduction

2 Optical and atomic force microscopy (AFM)

3 Synthesis and structure of polymers

4 Properties of polymers

5 Polymer nano-composites

6 Thin layers physics

7 Thin layers technology

8 Diagnostics of el. properties of layers

9 Growth of spherolits from polymer melt

10 Epitaxial growth

11 Lithography

12 Excursion

13 Growth of fractals

14 Test in exercises, Credits

Study Objective:

The aim of the course nanotechnology is comprehension of current nanotechnologies for the inspiration of a new kind of solution of technological problems and for the better communication with professionals in other fields.

Study materials:

[1] M.Daoud, C.E. Williams (ed.): Soft Matter Physics. Springer 1999, ISBN 3-540-64852-6

[2] J. Zhang et al: Self-Assembled Nanostructures. Kluver Academic/Plenum Publisher 2003, ISBN 0-306-47299-6

[3] B. Bhushan (ed.): Handbook of Nanotechnology. Springer 1st ed. 2004, ISBN: 3-540-01218-4, e-ISBN: 978-3-540-29838-0. Springer 2nd ed. 2007 ISBN-10: 3-540-29855-X, e-ISBN: 3-540-29857-6

[4] K. Goser et al: Nanoelectronics and Nanosystems. Springer 2004, ISBN 3-540-40443-0

5) Z. Weis, G. Simha-Martynková, O. Šustai: Nanostruktura uhlíkatých materiálů. VŠB- Technická univerzita Ostrava 2005, ISBN 80-7329-083-9

6) A. A. Tseng: Nanofabrication - Fundamentals and Applications. World Scientific 2008, ISBN 13 978-981-270-542-6, ISBN 10 981-270-542-2

7) J. Shrbená, K. Šperlink: Nanotechnologies in the Czech Republic. ČSNMT Prague 2012, ISBN 978-80-7216-312-0

8) Walter J. Moore: Physical Chemistry. Prentice Hall, Engelwood Clifts, New Jersey, USA

9) Walter J. Moore: Fyzikáílní chemie. Praha, SNTL 1981

Further information:
No time-table has been prepared for this course
The course is a part of the following study plans:
Data valid to 2024-04-18
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