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using various deposition techniques, notably atomic layer deposition and magnetron sputtering Characterization of interfaces by microscopy techniques, adhesion testing and interpretation of results
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Exaddon AG , we are developing novel miniaturized probe pins for semiconductor testing through additive micro-manufacturing of coated core-shell structures combining high mechanical strength, creep
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as commercial products. We envision that the generated knowledge will advance the use of green binder materials in batteries and lead to advancements lowering the overall CO2 footprint of battery
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13 Apr 2024 Job Information Organisation/Company Empa Research Field Chemistry » Other Engineering » Mechanical engineering Engineering » Other Physics » Other Researcher Profile Recognised
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the performance of solar cells and modules Devices fabrication using various deposition techniques, notably high-vacuum coevaporation, chemical bath deposition, magnetron sputtering, atomic layer deposition and
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physics, or nanoscience who wants to pursue cutting-edge research at a world-class level. Your tasks Within a collaborative project between the Swiss Federal Laboratories for Materials Science and
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of solar cells and modules Devices fabrication using various deposition techniques, notably high-vacuum coevaporation, chemical bath deposition, magnetron sputtering, atomic layer deposition and thermal/e
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of specific magnetic nanographenes using on-surface synthesis investigation of their electronic and magnetic properties using scanning tunneling microscopy/spectroscopy and atomic force microscopy decoupling
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lead by Dr. Yaroslav Romanyuk. Your tasks As part of a larger effort at Empa, you will contribute to a research project in the field of ASSBs. The emphasis will be on investigating the factors leading