Course detail
Nanotechnology
FCH-MC_NANAcad. year: 2024/2025
First, the students are introduced into nanotechnology within 3 lessons. Then, they choose an offered topic that can be found in another part “Osnova” and prepare presentation for 15 min. Finally, every student presents the chosen topic, answers all questions during a discussion with teacher and other students. The student discusses the topics presented by other students.
Language of instruction
Czech
Number of ECTS credits
3
Mode of study
Not applicable.
Guarantor
Department
Entry knowledge
Basic chemistry and physics.
Rules for evaluation and completion of the course
The rating is based on quality of presentation, answering the questions, and activity in discussion about other topics.
Participation at all presentations is obligatory for all students.
Participation at all presentations is obligatory for all students.
Aims
A basic orientation in rapidly developing nanotechnologies is the aim of this lecture.
Students acquire basic knowledge about nanotechnologies, characterization and application of nanostructured materials.
Students acquire basic knowledge about nanotechnologies, characterization and application of nanostructured materials.
Study aids
Not applicable.
Prerequisites and corequisites
Not applicable.
Basic literature
C.P. Poole, F.J. Owens, Introduction to Nanotechnology, Wiley-Interscience 2003 (CS)
M. DiVentra, S. Evoy, J.R. Heflin, Introduction to Nanoscale Science and Technology, Kluwer 2004 (CS)
J.Y. Ying, Nanostructured Materials, Academic Press 2001 (CS)
B. Bhushan, Springer Handbook of Nanotechnology, Springer 2003 (CS)
M. DiVentra, S. Evoy, J.R. Heflin, Introduction to Nanoscale Science and Technology, Kluwer 2004 (CS)
J.Y. Ying, Nanostructured Materials, Academic Press 2001 (CS)
B. Bhushan, Springer Handbook of Nanotechnology, Springer 2003 (CS)
Recommended reading
Not applicable.
Type of course unit
Lecture
26 hours, optionally
Teacher / Lecturer
Syllabus
1. Introduction to nanotechnologies, choice of topics
2. Nanotechnology and nanomaterials
3. Use of nanomaterials, risks
4. Presentation of selected topics: Micro/nanotechnology techniques, Nanolithography
5. Techniques of self-organization and self-organization, Imprint Techniques
6. Materials for micro- and nanoelectromechanical systems, Nanoelectromechanical Systems (MEMS / NEMS)
7. Fullerenes, Carbon nanotubes, Graphene
8. Nanowires, Nanocomposites, Quantum wells, wires and dots
9. Organic and polymeric nanostructures, dendrimers
10. Molecular electronics, Organic optoelectronic nanostructures, Photonic crystals
11. Hard nanocomposite layers, Biomimetic nanostructures, Biomolecular motors
12. Scanning Tunneling Microscopy (STM), Force microscopy (AFM, EFM, MFM), Near-field optical microscopy (SNOM), Probes in scanning microscopy
13. 2D materials for photonics, Molecular nanotechnology, DNA nanotechnology, Artificial cells
2. Nanotechnology and nanomaterials
3. Use of nanomaterials, risks
4. Presentation of selected topics: Micro/nanotechnology techniques, Nanolithography
5. Techniques of self-organization and self-organization, Imprint Techniques
6. Materials for micro- and nanoelectromechanical systems, Nanoelectromechanical Systems (MEMS / NEMS)
7. Fullerenes, Carbon nanotubes, Graphene
8. Nanowires, Nanocomposites, Quantum wells, wires and dots
9. Organic and polymeric nanostructures, dendrimers
10. Molecular electronics, Organic optoelectronic nanostructures, Photonic crystals
11. Hard nanocomposite layers, Biomimetic nanostructures, Biomolecular motors
12. Scanning Tunneling Microscopy (STM), Force microscopy (AFM, EFM, MFM), Near-field optical microscopy (SNOM), Probes in scanning microscopy
13. 2D materials for photonics, Molecular nanotechnology, DNA nanotechnology, Artificial cells
Guided consultation in combined form of studies
26 hours, obligation not entered
Teacher / Lecturer