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Field
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microstructure, especially the electrode engineering that needs to consider the ionic and electronic percolation. Currently, most research are dedicated to the development of new materials. However, the transport
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of the selected candidate are as follows: Growth of epitaxial compounds such as alpha-Sn, half Heusler topological insulator, and B20 compounds integrated with other layers. Carry out the micro/nanofabrication
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), depending on activity. A company restaurant on site where you can have lunch at an attractive price. Partial reimbursement of transport tickets (75%) + sustainable mobility package. A site accessible by
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analyse experiments, and monitor the project (written reports, PowerPoint presentations, data management, etc.). - Prepare and carry out Nanobody generation studies. - Prepare and carry out interaction
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through porous structures. The candidate will use 3D printing tools to reproduce natural porous architectures (rocks, fractures, vessels, membranes) and image scalar transport using novel tomography
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of particles during their transport in the atmosphere, (ii) to study the influence of relative humidity on the oxidation mechanisms and (iii) to understand the role of oxidation on the hygroscopic properties
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-fund the PhD grant. The recruited PhD student will spend equal shares of time in the two institutions to carry out the research project. Requirements Research FieldChemistry » Inorganic
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(Sandro Heuke). You will develop a new coherent Raman technique called coherent Stokes Raman scattering (CSRS) microscopy. As the game-changer, CSRS will send the signal photons directly into the backward
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the activity of the enzymatic respiratory chain. Studying the efficiency of electron transport within the chain, via the oxidation of various coenzymes (NADH, quinone, cytochrome-c) with O2 as the final acceptor
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or an obstacle, a noise is produced which is called aeroacoustic noise. Potential applications relate to noise emitted into the environment by air and land transport as well as the effects of wind in interaction