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151-0060-00L 4 Credits BSC , MSC D-ITET , D-MAVT , D-MATL

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Thermodynamics and Transport Phenomena in Nanotechnology

Lecturers & Examiners: Dr. Thomas Michael Schutzius, David Taylor

VVZ CR n/a

Last Updated: 2026-02-05 15:54:35

Abstract

The lecture deals with thermodynamics and transport phenomena in nano- and microscale systems. Typical areas of applications are microelectronics manufacturing and cooling, manufacturing of novel materials and coatings, surface technologies, wetting phenomena and related technologies, and micro- and nanosystems and devices.

Objective

The student will acquire fundamental knowledge of interfacial and micro-nanoscale thermofluidics including electric field and light interaction with surfaces. Furthermore, the student will be exposed to a host of applications ranging from superhydrophobic surfaces and microelectronics cooling to solar energy, all of which will be discussed in the context of the course. The student will also judge state-of-the-art scientific research in these areas.

Content

Thermodynamic aspects of intermolecular forces; Interfacial phenomena; Surface tension; Wettability and contact angle; Wettability of Micro/Nanoscale textured surfaces: superhydrophobicity and superhydrophilicity. Physics of micro- and nanofluidics as well as heat and mass transport phenomena at the nanoscale. Scientific communication and exposure to state-of-the-art scientific research in the areas of Nanotechnology and the Water-Energy Nexus.

Resources

Lecture Notes

yes

General Information

Language: English
Levels: BSC , MSC
Frequency: Yearly recurring

Examination

Type: session examination
Mode: written 120 minutes
Aids: Programmable calculator (non-transmittable)4 A4 sheets summary (8 A4 pages), no exercises

The final exam consists of 2 parts:Part 1 (25% of the grade). The students study a research paper and make an oral presentation from it, with discussion and questions. Mandatory, graded, not doing the presentation results in a grade 1.Part 2 (75% of the grade). The students take a written exam of the course where they solve problems.The final grade is decided by the weighted sum of the above 2 parts.

Course Components

Type	Title	Time & Place	Hours
lecture	Thermodynamics and Transport Phenomena in Nanotechnology	Wed 14:15-16:00 (CAB G 59)	2 h weekly
exercise	Thermodynamics and Transport Phenomena in Nanotechnology	Thu 08:15-10:00 (ML F 40)	2 h weekly

Offered In

Mechanical Engineering Bachelor
- 6. Semester
  - Focus Specialization
    - Microsystems and Nanoscale Engineering (Focus Coordinator: Prof. Christofer Hierold)
Mechanical Engineering Master
- Core Courses
  - Energy, Flows and Processes (The courses listed in this category “Core Courses” are recommended. Alternative courses can be chosen in agreement with the tutor.)
  - Micro & Nanosystems (The courses listed in this category “Core Courses” are recommended. Alternative courses can be chosen in agreement with the tutor.)
  - Bioengineering (The courses listed in this category “Core Courses” are recommended. Alternative courses can be chosen in agreement with the tutor.)
Materials Science Master
- Elective Courses (The students are free to choose individually from the entire course offer of ETH Zürich on the Master level. Please consult the study administration in case of questions.)
Micro- and Nanosystems Master
- Core Courses
  - Recommended Core Courses
    - Energy Conversion and Quantum Phenomena
Energy Science and Technology Master
- Electives (These courses are particularly recommended, other ETH-courses from the field of Energy Science and Technology at large may be chosen in accordance with your tutor.)
  - Energy Flows and Processes