Search result: Catalogue data in Spring Semester 2020
Energy Science and Technology Master  | ||||||
 Master Studies (Programme Regulations 2018) | ||||||
| Core Courses At least two core courses must be passed in each area. All students must participate in the course offered in the area "Interdisciplinary Energy Management" | ||||||
| Energy Flows and Processes | ||||||
| Number | Title | Type | ECTS | Hours | Lecturers | |
|---|---|---|---|---|---|---|
| 151-0060-00L | Thermodynamics and Transport Phenomena in Nanotechnology | W | 4 credits | 2V + 2U | T. M. Schutzius | |
| 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. | |||||
| Learning objective | The student will acquire fundamental knowledge of micro and nanoscale interfacial thermofluidics including 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. | |||||
| 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. Principles of thermoplasmonics and applications. | |||||
| Lecture notes | yes | |||||
Page
1
of
1
