151-0060-00L  Thermodynamics and Transport Phenomena in Nanotechnology

SemesterSpring Semester 2020
LecturersT. M. Schutzius
Periodicityyearly recurring course
Language of instructionEnglish



Courses

NumberTitleHoursLecturers
151-0060-00 VThermodynamics and Transport Phenomena in Nanotechnology2 hrs
Wed13:15-15:00HG E 7 »
28.05.09:15-13:00ML H 37.1 »
T. M. Schutzius
151-0060-00 UThermodynamics and Transport Phenomena in Nanotechnology2 hrs
Thu09:15-11:00ML F 40 »
T. M. Schutzius

Catalogue data

AbstractThe 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 objectiveThe 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.
ContentThermodynamic 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 notesyes

Performance assessment

Performance assessment information (valid until the course unit is held again)
Performance assessment as a semester course
ECTS credits4 credits
ExaminersT. M. Schutzius
Typesession examination
Language of examinationEnglish
RepetitionThe performance assessment is offered every session. Repetition possible without re-enrolling for the course unit.
Mode of examinationwritten 120 minutes
Additional information on mode of examinationThe 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.
Written aidsProgrammable calculator (non-transmittable)
4 A4 sheets summary (8 A4 pages), no exercises
This information can be updated until the beginning of the semester; information on the examination timetable is binding.

Learning materials

No public learning materials available.
Only public learning materials are listed.

Groups

No information on groups available.

Restrictions

There are no additional restrictions for the registration.

Offered in

ProgrammeSectionType
Energy Science and Technology MasterEnergy Flows and ProcessesWInformation
Mechanical Engineering BachelorMicrosystems and Nanoscale EngineeringWInformation
Mechanical Engineering MasterMicro & NanosystemsWInformation
Mechanical Engineering MasterBioengineeringWInformation
Materials Science MasterElective CoursesWInformation
Micro- and Nanosystems MasterEnergy Conversion and Quantum PhenomenaWInformation