L.104.32430 Basics of Nanotechnology (Exercises)

Course offering details

Instructors: Prof. Dr. Hans-Joachim Schmid

Event type: Exercise

Org-unit: Maschinenbau

Displayed in timetable as: GdNT (Ü)

Hours per week: 1

Language of instruction: German

Min. | Max. participants: - | -

Aim of the event:
The changes of physical phenomena of nanostructures will be calculated with exercises to promote the understanding oft he effects. For a detailled description of manufacturing and analysis methods for nanostructures each participant will give a short presentation about a method of his choice. As another modern application of nanotechnology silicon based thin-film photovoltaic will be explained.

Target group:
Chemical Engineer
Process Engineer
Mechanical Engineer

Contents:
1. Exercises about surface ratio and surface energy
2. Exercises about electronical, optical and magnetic properties
3. Silicon based thin-film photovoltaic
4. Exercises about most significant effects
5. Short presentations of participants about manufacturing and analysis methods

Contact person:
--> s. Teaching PVT

Appointments
Date From To Room Instructors
1 Tue, 10. Jan. 2017 14:00 15:30 E 1 143 Prof. Dr. Hans-Joachim Schmid
2 Tue, 17. Jan. 2017 14:00 15:30 E 1 143 Prof. Dr. Hans-Joachim Schmid
3 Tue, 24. Jan. 2017 14:00 15:30 E 1 143 Prof. Dr. Hans-Joachim Schmid
4 Tue, 31. Jan. 2017 13:00 14:00 E 1 143 Prof. Dr. Hans-Joachim Schmid
5 Tue, 31. Jan. 2017 14:00 15:30 E 1 143 Prof. Dr. Hans-Joachim Schmid
6 Tue, 7. Feb. 2017 14:00 15:30 E 1 143 Prof. Dr. Hans-Joachim Schmid
Connected courses
This course is connected with the following courses:

  • L.104.32230 Basics of Nanotechnology

    Course

    Prof. Dr. Hans-Joachim Schmid

    Fri, 9. Dec. 2016 [13:45]-Fri, 10. Feb. 2017 [17:45]

    Show course offering

  • L.104.32430 Basics of Nanotechnology (Exercises)

    Course

    Prof. Dr. Hans-Joachim Schmid

    Tue, 10. Jan. 2017 [14:00]-Tue, 7. Feb. 2017 [15:30]

    Course offering currently shown

Contained in modules
Module
M.104.2302 Energy- and process engineering ()
M.104.2302 Energy- and process engineering ()
M.104.2302 Energy- and process engineering ()
M.104.2302 Energy- and process engineering ()
M.104.2302 Energy- and process engineering ()
M.104.2302 Energy- and process engineering ()
M.104.2302 Energy- and process engineering ()
M.104.2302 Energy- and process engineering ()
M.104.2302 Energy- and process engineering ()
M.104.2302 Energy- and process engineering ()
M.104.2302 Energy- and process engineering ()
M.104.2302 Energy- and process engineering ()
M.104.2315 Applied process engineering ()
M.104.2315 Applied process engineering ()
M.104.2315 Applied process engineering ()
M.104.2315 Applied process engineering ()
M.104.2315 Applied process engineering ()
M.104.2315 Applied process engineering ()
M.104.2315 Applied process engineering ()
M.104.2315 Applied process engineering ()
M.104.2315 Applied process engineering ()
M.104.2315 Applied process engineering ()
M.104.2381 Nanotechnology ()
M.104.2381 Nanotechnology ()
M.104.2381 Nanotechnology ()
M.104.2381 Nanotechnology ()
M.104.2381 Nanotechnology ()
M.104.2387 Process Engineering ()
M.104.2387 Process Engineering ()
M.104.2387 Process Engineering ()
M.104.2387 Process Engineering ()
M.104.2387 Process Engineering ()
M.104.2387 Process Engineering ()
M.104.2387 Process Engineering ()
M.104.6400 Nanotechnology 1: Particles ()
M.104.6400 Nanotechnology 1: Particles ()
M.104.6400 Nanotechnology 1: Particles ()
M.104.6400 Nanotechnology 1: Particles ()
Class session overview
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Instructors
Prof. Dr. Hans-Joachim Schmid