Nanotechnology

Lecturer:

Václav Bouda (gar.), Jan Voves

Tutor:

Václav Bouda (gar.), Jan Lipták, Josef Sedláček, Jan Voves

Supervisor:

Department of Electrotechnology

Synopsis:

The course is under way of essential convergence of the nano-bio-info fields in nanoscale. The course is focused on the self-assembly of nanostructures, their characterization, and application in nano-electro-mechanical systems, new materials, medicine, new sources of energy, and biomimetics.

Requirements:

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 Top-down and Bottom-up processes,

7 Self-assembly of nanostructures

8 Nanomaterials

9 Vertical nanometrical structures

10 Horizontal morphology of nanostructures

11 Nanoelectronics

12 Biomimetics, Targeted transport of drugs

13 DLC, NNT for organic solar cells

Syllabus of tutorials:

1 Introduction

2 Excursion (AFMicroscope)

3 Polymer physics, optical microscopy

4 Sferolites growth from polymer melt

5 Polymer composites

6 Thin layers physics

7 Thin layers technology

8 Diagnostics of el. properties of layers

9 Epitaxial growth

10 Lithography

11 Excursion (electron lithography, epitaxial growth from organic compounds)

12 Excursion (electrospinning, nanowires)

13 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]A.S. Edelstein, R.C. Cammarata: Nanomaterials. Institute of Physics Publishing 1998, ISBN 0 7503 0578 9

Note:

Time-table for winter semester 2011/2012:

	06:00–08:0008:00–10:0010:00–12:0012:00–14:0014:00–16:0016:00–18:0018:00–20:0020:00–22:0022:00–24:00
Mon
Tue	roomT2:C4-264 Bouda V. Voves J. 09:15–10:45 (lecture parallel1) Dejvice Laborator 264roomT2:C4-261 Sedláček J. Voves J. 11:00–12:30 (lecture parallel1 parallel nr.1) Dejvice Laboratoř 261roomT2:C4-261 Sedláček J. Voves J. 12:45–14:15 (lecture parallel1 parallel nr.2) Dejvice Laboratoř 261roomT2:C4-157 Bouda V. Lipták J. 14:30–16:00 (lecture parallel1 parallel nr.3) Dejvice Cvičebna MT roomT2:C4-157 Bouda V. Lipták J. 11:00–12:30 (lecture parallel1 parallel nr.1) Dejvice Cvičebna MTroomT2:C4-157 Bouda V. Lipták J. 12:45–14:15 (lecture parallel1 parallel nr.2) Dejvice Cvičebna MTroomT2:C4-261 Voves J. Sedláček J. 14:30–16:00 (lecture parallel1 parallel nr.3) Dejvice Laboratoř 261
Fri
Thu
Fri

Time-table for summer semester 2011/2012:

	06:00–08:0008:00–10:0010:00–12:0012:00–14:0014:00–16:0016:00–18:0018:00–20:0020:00–22:0022:00–24:00
Mon
Tue	roomT2:C4-157 Bouda V. Voves J. 12:45–14:15 (lecture parallel1) Dejvice Cvičebna MTroomT2:C4-157 Bouda V. Lipták J. 14:30–16:00 (lecture parallel1 parallel nr.1) Dejvice Cvičebna MTroomT2:C4-157 Bouda V. Lipták J. 16:15–17:45 (lecture parallel1 parallel nr.2) Dejvice Cvičebna MT roomT2:C4-261 Sedláček J. Voves J. 14:30–16:00 (lecture parallel1 parallel nr.1) Dejvice Laboratoř 261roomT2:C4-261 Sedláček J. Voves J. 16:15–17:45 (lecture parallel1 parallel nr.2) Dejvice Laboratoř 261
Fri
Thu
Fri

The course is a part of the following study plans: