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modifications (hardware and software) to enable these novel processes. • Design and fabrication of microfluidic chips in silicon, glass and polymers. • Design and construction of new experimental setups in
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for n-type and p-type doping respectively. Second, doping using low energy phosphorus implantation will be studied, controlling the implantation depth by means of sacrificial polymer films. As a third
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. Basic knowledge of (analytical) chemistry, with a general interest in life sciences, and willingness to expand knowledge if necessary. Experience with electrospinning or polymer synthesis is a plus. How
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aeronautical industry. These materials include advanced high strength steels, lightweight alloys, polymer composites, nanocomposites, etc. which might be prone to impact or, more generally, high speed
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biomedicine, polymer chemistry, or strong experimental skills are desirable. The candidate should have a clear interest in experimental and interdisciplinary work. The candidate should also be willing to travel