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sieve membranes for gas separation application. The project represents a true intersection of various disciplines, offering you the opportunity to actively participate in the design and synthesis
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of separation science. In this particular project, we are dedicated to synthesizing polymer, and fabricating carbon molecular sieve membranes for gas separation application. The project represents a true
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elements, like carbon, are produced inside luminous cool giant stars, transported to the surface by turbulent gas flows, and ejected into interstellar space by massive outflows of gas and dust. The current
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experimental work that includes hydrothermal carbonisation, pyrolysis of underutilised biomass derivatives, and biochemical methane potential assays. The position also requires the teaching assistant to work
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materials based composites for example with polymer and other sensing materials to fabricate highly sensitive pressure sensors. Gas sensor can be also considered. You will design, synthesize and characterize
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of Guidelines and Assessment Criteria for Recruiting and Promoting Teachers at the Disciplinary Domain of Medicine and Pharmacy (GA) and Section 20 AR. In assessing teaching expertise, teaching quality is the
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inspired many, and we have been at the forefront of this quest. The combination of advances in XFEL technology with new instrumentation has brought the dream of imaging hydrated single proteins by X-ray
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hydrogen pressure reactors and the gas, liquid will be analysed with GC, GCxGC/MS and NMR. The solids will be characterized with elemental analysis, NMR, Maldi, etc. The catalysts will be throughly
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techniques to remediate heavily polluted sediments and integrate biochar for reducing greenhouse gas emissions and pollution. The final goal is to transform organic wastes into valuable resources while
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the gas phase, that is, taken out of solution, which circumvents a number of difficulties faced in solution-based methods. The doctoral student will work in Erik Marklund’s research group, which uses