Our research has focused on the utilization of nano- and carbon-based materials in a wide range of electronic applications and circuits. Engineered functional nanomaterials like carbon nanotubes, nanowires and other carbon-based materials - like graphene or graphenic carbon materials - have the potential to significantly improve the performance of electronic devices, sensors, interconnects, energy- and information storage devices and circuits based on them. At the same time, nano- and carbon-based materials may offer a route towards a more sustainable form of materials used in engineering - a form which relies less on the precious limited natural resources. Our efforts to create new functional devices bridge classical electrical engineering and circuits with material science and physics. Meanwhile, we extended our activities to a wide range of other, more doable topics due to missing infrastructure and resources. Unfortunately, our research infrastructure has been completely destroyed by the move to our new building in Garching and with all the resources stripped of, it will take years to rebuilt the required infrastructure from scratch.
"A good alternative is a 1 µm-thick graphenic carbon window (G1, G2) produced by KETEK for RT applications (Huebner et al., 2015). Our test showed…
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Lymperis Perakis published his master thesis as a paper:
Classifying figures and illustrations in electronics datasheets: A comparative evaluation of…
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Today Vadim Vendt successfully defended his dissertation "Design and Technology of Discrete Silicon-based Vertical SCR Devices for System-Level ESD…
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Congratulations to Dr. Max Stelzer! The award ceremony for Max starts at 1:33:56 h here in the video https://www.ei.tum.de/tdf/
Max Stelzer's thesis…
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Yesterday,
Muhammad Mudussir Ayub successfully defended his dissertation "Pre-Silicon Power and Performance Estimation and Optimization for System…
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Thanks to KETEK GmbH, our SEM is now equipped with an EDX detector with low-energy graphenic carbon window. Together with Ketek, our group (Sebastian…
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Today, Max Stelzer successfully defended his dissertation "Highly Reliable Graphenic Carbon-Silicon Contacts" with "summa cum laude". Congratulations…
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Markus Hefele successfully defended his dissertation "Highly Integrated Multichannel CMOS Sensor Systems for Micro-Physiological High-Content…
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