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for the efficient formation of high-value compounds. Advanced NMR methods and computational data analysis will be compounded to devise novel reactions towards pharmaceutical precursors, polymer building blocks and
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you will break new ground at the absolute forefront of what is possible in safe operation of autonomous agricultural vehicles. These are needed to enable better land use and management. This project
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research environment. Project background Future European power systems are expected to be driven by a very high share of renewable power plants and will be extremely complex, uncertain environments with
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biocompatibility and a high surface area for bioelectrochemistry. Your main contribution in this project will be the design and microfabrication of the 3D carbon electrodes, exploring processes such as
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to be cost competitive with other technologies, long lifetime of >5 years operation under high current density is desired. Operation conditions such as temperature, gas composition, current density and
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of code to utilize GPU-acceleration on DTU’s high-performance computing cluster or other HPC systems. You will also analyze realistic physical implementations of the architectures you explore, with a
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. Establish robust, high-resolution electron microscopy protocols to identify and quantify interfacial structural phenomena. Correlate interfacial structure with adsorption performance, contributing to a
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and components with high surface quality requirements. Despite the trends towards increasing automation and higher productivity, the polishing of complex geometries is still normally performed manually
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fostering a creative and successful academic environment. DTU Electro has 350 employees and span activities in physics, photonics, and electrical engineering. Research is performed within nanophotonics