Tobias Haeberle

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In this work, we present a method for printing metal micro- and nanopatterns down to sub-50-nm feature sizes using replicated, defect-tolerant stamps made out of OrmoStamp®; material. The relevant parameters for a successful transfer over large areas were investigated and yields above 99 % have been achieved. Comparing our results to conventional(More)
As cars turn into computers on wheels, it becomes vital to experiment with novel application scenarios and to envision suitable abstractions for integrating cars into existing enterprise information systems. This insightful project report tells the story of a prototyping platform for connectedcar software and shares the project’s experience with a(More)
We report on a novel fabrication scheme to define metal source and drain contacts for short-channel thin-film transistors utilizing a purely additive transfer-printing process. We demonstrate the viability of this approach by realizing carbon nanotube thin-film transistors featuring a very thin aluminum oxide gate dielectric The active layer of the(More)
In this letter, we report a flexible complementary common-source (CS) amplifier comprising one p-type spray-coated single walled carbon nanotube and one n-type sputtered InGaZnO<sub>4</sub> thin-film transistor (TFT). Bottom-gate TFTs were realized on a free-standing flexible polyimide foil using a maximum process temperature of 150 &#x00B0;C. The resulting(More)
The successful transfer printing of thin metal films onto monolayers of aliphatic bisphosphonic acids (bisPAs) is reported. These monolayers were prepared from solution on plasma-grown aluminum oxide, and were compared with analogous monolayers of alkyl monophosphonic acids (monoPAs) for transfer printing efficacy. Water contact angle and AFM measurements(More)
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