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of the transport sector is one of the leading contenders to rid these emissions, hence the use of batteries will play an increasing role in the energy transition needed to control unwarranted global climate change
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of antimicrobial compounds. In this PhD project, you will investigate the basic mechanisms of cell division in relation to cell wall synthesis, with the aim to discover protein targets that can be used to develop
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heterostructures for making ultrahigh-gain, ultralow-noise detectors for applications in high-energy physics. Recently, novel 2D material devices have been developed based on heterostructures of semiconducting 2D
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. Recent breakthroughs in shear-cell and extrusion techniques offer opportunities to make fibrous plant-based structures without additives. In this project, we explore rheology and direct imaging on selected
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genetics, plant biology, genomics, cell biology, biochemistry, and microbiology. Engaging in public-private partnership projects, we aim to translate novel insights into solutions for societal problems