Materials of Micro and Nanotechnology - Interactive curriculae of TU Ilmenau
The interactive curriculae provide information on the degree programmes offered by the TU Ilmenau.
Please refer to the respective study and examination rules and regulations for the legally binding curricula (Annex Curriculum).
You can find all details on planned lectures and classes in the course catalogue.
Please note that this page is no longer updated. All modules and study plans from PO version 2021 onwards (Bachelor and Master study programs) are now available on the Campus Portal.
| module properties Materials of Micro and Nanotechnology in degree program Master Werkstoffwissenschaft 2021 | ||
|---|---|---|
| module number | 200601 | |
| examination number | 210502 | |
| department | Department of Electrical Engineering and Information Technology | |
| ID of group | 2172 (Materials for Electrical Engineering and Electronics) | |
| module leader | Prof. Dr. Peter Schaaf | |
| term | winter term only | |
| language | Englisch | |
| credit points | 5 | |
| on-campus program (h) | 45 | |
| self-study (h) | 105 | |
| obligation | obligatory module | |
| exam | examination performance with multiple performances | |
| details of the certificate | Das Modul Materials of Micro and Nanotechnology mit der Prüfungsnummer 210502 schließt mit folgenden Leistungen ab:
Written examination
Seminar talk to a given topic with scientific discussion. Examination part 2 (Teilleistung 2) is only offered in the winter semester. | |
| link to Moodle course | ||
| teacher | PD Dr. Dong Wang und Mitarbeiter des Fachgebiets | |
| signup details for alternative examinations | Dieses Modul enthält mindestens eine alternative semesterbegleitende Abschlussleistung. Bitte beachten Sie, dass diese in der Regel in die Prüfungsanmeldungszeitraum während des Semesters angemeldet werden muss. This module contains at least one alternative exam part. Please note that this must usually be registered in the semester in due time. | |
| maximum number of participants | ||
| previous knowledge and experience |
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| learning outcome | Students are able to explain the mechanical and functional properties of materials in micro- and nanotechnology starting from the microscopic and submicroscopic structure. The can analyze changes in the properties and judge them for their applicability in new applications and can develop strategies for their implementation. Students know the various materials in micro- and nanotechnology and in sensorics. They have gained knowledge about the basic materials properties, their application and the fabrication of such materials. The students know the basics of fabrication of highly integrated circuits, the preparation of microsystems and sensors and how the materials have to be selected. For selected applications the students have knowledge about various methods and steps, materials and their control and analysis. After the seminar, the students have gain a deeper knowledge for selected examples, and they have learned how to search information and how to present this in a talk and to discuss the problems. After intensive discussions and group work during the exercises, the students can correctly assess and appreciate the achievements of their fellow students. They take criticism, heed remarks and accept suggestions. After the scientific talk (presentation and discussion), students can present a scientific topic, interpret the research results and have to maintain a scientific discussion. So they have the ability to analyze, summarize, interpret and to discuss a scientific research topic. This shows the metacognitive knowledge of the students. Beside these aims and knowledge tests the students have proofed the factual, conceptual, and procedural knowledge of the micro and nanomaterials in the written examination. They have all basics available and the can apply this knowledge and transfer it to given problems. | |
| content | Materials for Micro- and Nanotechnology Factual knowledge Materials for micro and nanofabriations, Top-down und Bottom-up principles, structuring, materials principles of etching, self-organisation methods, properties of nanomaterials, scaling laws. Introduction Thin films, deposition, transport mechanisms in thin films
materials for sensorics materials for plasmonics materials for energy conversion and storage Methodological Competences Students can analyse a digital representation of materials and draw conclusions. They are able to convert measurements of properties to a digital representation of materials. Self-reflecting competences Students know how to deal with digital representations and can judge about deficiencies and limitations. They know how to extend the problem and find a solution. Social Competences After the seminar, the students have gain ed deeper knowledge for selected examples, and they have learned how to search information and how to present this in a talk and to discuss the problems. After intensive discussions and group work during the exercises, the students can correctly assess and appreciate the achievements of their fellow students. They take criticism, heed remarks and accept suggestions. | |
| media of instruction and technical requirements for education and examination in case of online participation | Scriptum, powerpoint, computer demos, animations, specialized literature, seminar, talks (presentation and discussion)
moodle course: https://moodle.tu-ilmenau.de/course/view.php?id=2127 enrolment key: 2024-micronano
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| literature / references | Specialized literature will be given in the course and in moodle.
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| evaluation of teaching | ||