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groundbreaking electron-beam lithography (EBL) methods that will redefine what is achievable in quantum device fabrication. You will push lithography resolution limits down to the quantum regime, demonstrating
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experimental research in nanoparticle catalysis using advanced operando electron microscopy This collaborative PhD project between Technical University of Munich (TUM) ( the group of Prof. Barbara A.J. Lechner
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PhD fellowship at the Copenhagen Center for Glycocalyx Research at the Department of Cellular and Mo
and purification, microscopy, flow cytometry or 3D organoid tissue culture. Excellent organizational and communication skills, and the ability to work both independently and in a team. Proficient
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groundbreaking electron-beam lithography (EBL) methods that will redefine what is achievable in quantum device fabrication. You will push lithography resolution limits down to the quantum regime, demonstrating
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electron-beam lithography (EBL) methods that will redefine what is achievable in quantum device fabrication. You will push lithography resolution limits down to the quantum regime, demonstrating
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measurements and proteomics), and microscopy (AFM, confocal and fluorescence) instruments, microscope with cold stage, rate freezer and climate cabinets, GMO class 2 labs, flow cytometry, NGS, Q-PCR facilities
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properties of the electrodes will enhance interaction with bacteria and facilitate electron transfer. Here, we will focus on design and fabrication of 3D carbon electrodes, which can provide excellent
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electron microscopy (TEM), and X-ray photoelectron spectroscopy (XPS) You must have a two-year master's degree (120 ECTS points) or a similar degree with an academic level equivalent to a two-year master's