SubjectsSubjects(version: 965)
Course, academic year 2019/2020
  
Molecular Engineering - P402017
Title: Molekulární inženýrství
Guaranteed by: Department of Analytical Chemistry (402)
Faculty: Faculty of Chemical Engineering
Actual: from 2019 to 2019
Semester: summer
Points: summer s.:0
E-Credits: summer s.:0
Examination process: summer s.:
Hours per week, examination: summer s.:3/0, other [HT]
Capacity: unlimited / unknown (unknown)
Min. number of students: unlimited
State of the course: taught
Language: Czech
Teaching methods: full-time
Level:  
Note: can be fulfilled in the future
Guarantor: Záruba Kamil doc. Ing. Ph.D.
Is interchangeable with: AP402017
Examination dates   Schedule   
Annotation -
Molecular engineering is an area of ​​contemporary interdisciplinary research that is developing rapidly. Available instruments and methods of measurement allow the analysis of materials with atomic resolution. There are also procedures for building complex two- and three-dimensional objects with precisely arranged atoms and molecules. Many individual topics are lectured in details in other subjects, so in this course, the interconnection of these sub-areas is emphesized.
Last update: Záruba Kamil (15.05.2019)
Literature -

A: V. K. Varadan, A. S. Pillai, D. Mukherji, M. Dwivedi, L. Chen: Nanoscience and nanotechnology in engineering, World Scientific, 2010, ISBN 978-981-4277-92-1

A: O. Fesenko, L. Yatsenko, Eds. Nanochemistry, biotechnology, nanomaterials, and their applications, Springer, 2017, ISBN 978-3-319-92566-0

A: M. D. Ventra, S. Evoy, J. R. Heflin Jr., Eds. Introduction to Nanoscale science and technology, Springer, 2004, ISBN 978-1-4020-7720-3

A: Edward A. Rietman, Molecular Engineering of Nanosystems (Biological and Medical Physics, Biomedical Engineering), Springer, 2001, ISBN 0-387-98988-9

Last update: Záruba Kamil (03.09.2019)
Teaching methods -

Lectures

Last update: Záruba Kamil (31.07.2018)
Syllabus -

1. Introduction to molecular engineering

2. Intermolecular and surface interactions

3.-4. Supramolecular engineering

5.-6. Nanotechnology

7. Energy conversion in molecular systems

8. Organic conductive and magnetic materials

9. Photonic molecular systems

10. Tissue engineering

Last update: Záruba Kamil (17.05.2019)
Learning resources -

PowerPoint prezentations

Last update: Záruba Kamil (31.07.2018)
Learning outcomes -

Students will be able to:

  • describe basic types of intermolecular interactions
  • to introduce basic principles of preparation of functional nanomaterials based on physical methods and supramolecular chemistry
  • schematically design the structure of functional nanomaterials for use in analytical chemistry and material engineering

Last update: Záruba Kamil (31.07.2018)
Entry requirements -

Basic university course of chemistry, physics, and mathematics.

Last update: Záruba Kamil (21.08.2018)
Registration requirements -

none

Last update: Záruba Kamil (21.08.2018)
Coursework assessment
Form Significance
Regular attendance 20
Oral examination 80

 
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