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Macromolecular Engineering: Networks and Gels
Last Updated: 2026-06-01 11:33:04
Abstract
This course will provide an introduction to the design and physics of soft matter with a focus on polymer networks and hydrogels. The course will integrate fundamental aspects of polymer physics, engineering of soft materials, mechanics of viscoelastic materials, applications of networks and gels in biomedical applications including tissue engineering, 3D printing, and drug delivery.
Objective
The main learning objectives of this course are: 1. Identify the key characteristics of soft matter and the properties of ideal and non-ideal macromolecules. 2. Calculate the physical properties of polymers in solution. 3. Predict macroscale properties of polymer networks and gels based on constituent chemical structure and topology. 4. Design networks and gels for industrial and biomedical applications. 5. Read and evaluate research papers on recent research on networks and gels and communicate the content orally to a multidisciplinary audience.
Resources
Lecture Notes
Class notes and handouts.
Literature
Polymer Physics by M. Rubinstein and R.H. Colby; samplings from other texts.
General Information
- Language
- English
- Levels
- BSC , DR , MSC
- Frequency
- Yearly recurring
Examination
- Type
- end-of-semester examination
- Mode
- written 115 minutes
- Aids
- One A4 page (front and back) of personal notes, hand-written in pen and paper is allowed at the exam.A non-programmable calculator and a standard dictionary are also allowed.
Course Components
| Type | Title | Time & Place | Hours |
|---|---|---|---|
| lecture with exercise | Macromolecular Engineering: Networks and Gels |
|
4 h weekly |
Offered In
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Sustainable Energy and Processes (Fokus-Koordinator: Prof. Mark Tibbitt Für die erforderlichen 20 KP der Fokus-Vertiefung Sustainable Energy and Processes müssen mindestens 2 Kernfächer (W+) und mindestens 2 der Wahlfächer gemäss der Präsentation der Fokus-Vertiefung Sustainable Energy and Processes gewählt werden. Bei Bedarf kann ein zusätzlicher Kurs aus dem Kursangebot des D-MAVT (151-…) ausgewählt werden.)
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Micro- and Nanosystems Technology (Fokus-Koordinator: Prof. Christofer Hierold)
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Engineering for Health (Fokus-Koordinator: Prof. Bradley Nelson)
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Biomedical Engineering Master (Es können nur Kurse angerechnet werden, die unter der Kategorie "GESS – Wissenschaft im Kontext (SiP)" aufgeführt werden. Siehe Reiter "Angeboten in" in der Kursübersicht. Für mehr Information, siehe )
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Wahlfächer der Vertiefung (Diese Fächer sind für die Vertiefung in Molecular Bioengineering besonders empfohlen. Bei abweichender Fächerwahl konsultieren Sie bitte den Track Adviser.)
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Doktorat Materialwissenschaft (Weitere Informationen unter: )
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