PhD Position Robust low-ohmic contacts to 4H-SiC by tailored interface engineering
TU Wien is located in the heart of Europe, in a cosmopolitan city of great cultural diversity. Our identity as a research university means building our reputation through research. TU Wien combines basic and applied research and research-oriented teaching at the highest level. The group of Prof. Ulrich Schmid at the Institute of Sensor and Actuator Systems invites applications for a 3.5-year PhD position (starting January 2025) in the field of robust low ohmic contacts to silicon carbide (4H-SiC).
Due to outstanding properties in comparison to silicon, such as a large bandgap ensuring a high electric breakdown strength and a high thermal conductivity, silicon carbide (SiC) is regarded as one of the most promising wide band gap semiconductors for future high power and high-frequency electronic applications. Besides these well-known material parameters, advanced device architectures request novel approaches for fabrication. Especially robust low ohmic contacts to 4H-SiC are essential for modern power devices because they ensure optimal electrical conductivity. This is crucial for efficient performance in high-voltage applications such as fast charging stations or solar/traction inverters. Additionally, reliable low ohmic contacts minimise contact resistance and heat generation, enhancing power electronic systems' overall energy efficiency and reliability. Within the frame of an interdisciplinary research project, including seven researchers and one industrial partner, our goal is to exploit the full potential of 4H-SiC by investigating novel material combinations and surface pre-conditioning techniques for low-ohmic contact formation. The PhD will acquire knowledge about different thin layer deposition and surface pre- conditioning techniques. By tailoring the interface, the realisation of reliable, low ohmic contacts to 4H-SiC substrates is targeted in a state-of-the-art cleanroom environment. Their electrical, structural, and chemical properties are evaluated by characterising test structures and devices. Even more, the impact of bulk substrate properties such as the doping concentration, is also in the focus of this study to gain an in-depth understanding of key parameters in low-ohmic contact formation on 4H-SiC. For more information about the project, please contact the principal investigator (PI), Dr. Georg Pfusterschmied (georg.pfusterschmied@tuwien.ac.at).
For this most ambitious project, we are looking for a motivated PhD student fulfilling these requirements:
The successful candidate will work in Prof. Ulrich Schmid's group under Dr. Georg Pfusterschmied's guidance as PI at the Institute of Sensor and Actuator Systems in Vienna's centre. The institute offers an international environment and excellent infrastructure. You can find more information about the group and the institute at https://mst.isas.tuwien.ac.at/home/. In addition, we offer
We invite highly qualified and motivated students interested in this exciting research field to send us their detailed application documents (including a letter of motivation, CV grade transcripts and BSc/MSc diploma) via email in a single PDF file. to phd3662@tuwien.ac.at until November 22nd, 2024
Candidates are not eligible for a refund of expenses for travelling and lodging related to the application process. TU Wien intends to increase the number of women on its faculty and, therefore, specifically invites applications by women. Among equally qualified applicants, women will receive preferential consideration.
TU Wien (Vienna) is Austria's largest research and educational institution in the field of technology and natural sciences.
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