Nanomaterials for Nano-electronics (B-KUL-H02W7A)
Aims
The purpose of this course is to give some insight into the practical application of various materials and technologies used in nanotechnology.
Previous knowledge
The students need a sound interest in nanomaterials and nanotechnology.
Is included in these courses of study
- Master in de ingenieurswetenschappen: materiaalkunde (programma voor industrieel ingenieurs of masters industriële wetenschappen - aanverwante richting) (Leuven) (Metalen en keramieken) 120 ects.
- Master in de ingenieurswetenschappen: materiaalkunde (programma voor industrieel ingenieurs of masters industriële wetenschappen - aanverwante richting) (Leuven) (Nanomaterialen) 120 ects.
- Master in de nanowetenschappen, nanotechnologie en nano-engineering (Leuven) 120 ects.
- Master in de nanowetenschappen, nanotechnologie en nano-engineering (Leuven) (Optie nanomaterialen en nanochemie) 120 ects.
- Master in de nanowetenschappen, nanotechnologie en nano-engineering (programma voor industrieel ingenieurs of master industriële wetenschappen - aanverwante richting) (Leuven) (Optie Nanomaterialen en nanochemie) 120 ects.
- Master of Nanoscience, Nanotechnology and Nanoengineering (Leuven) 120 ects.
- Master of Nanoscience, Nanotechnology and Nanoengineering (Leuven) (Option: Nanomaterials and Nanochemistry) 120 ects.
- Courses for Exchange Students Faculty of Engineering Science (Leuven)
- Master in de ingenieurswetenschappen: materiaalkunde (Leuven) (Metalen en keramieken) 120 ects.
- Master in de ingenieurswetenschappen: materiaalkunde (Leuven) (Nanomaterialen) 120 ects.
- Master of Materials Engineering (Leuven) (Metals and Ceramics) 120 ects.
- Master of Materials Engineering (Leuven) (Nanomaterials) 120 ects.
- EIT-KIC Dual Degree Tracks in Sustainable Materials Engineering (Leuven) (EIT-KIC Dual Degree Track in Sustainable Materials Engineering: Option Materials Development (Milano - Leuven)) 120 ects.
Activities
3 ects. Nanomaterials for Nano-electronics (B-KUL-H02W7a)
Content
Materials, processes and related topics relevant to nanotechnology will be covered in the lectures. The topics will span “more Moore”, “more-than-Moore” and “beyond Moore” technologies (referring to the popular Moore’s law for integrated circuits). In particular, the lectures will include (but are not limited to): micro/nanofabrication, reliability and failure issues of MEMS, flexible/stretchable electronic materials and printed electronics technologies, high-mobility materials (strained Si, Ge, and III-V semiconductors), 2D materials, and high-k dielectrics.
Course material
Copies of the presentations (pdf of power point presentations).
Evaluation
Evaluation: Nanomaterials for Nano-electronics (B-KUL-H22W7a)
Explanation
The exam will consist of an oral open book exam. Details will be explained on Toledo.