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to apply your research skills to understand the whole life carbon impacts of the transport system? Do you thrive on working in an exciting and creative environment committed to making a difference? Inspiring
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different heating and cooling regimes, followed by phase assemblage and microstructure characterisation to deliver the optimal clinker composition required for the best hydration characteristics. Furthermore
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between the School of Civil Engineering and the University of Leeds Virtuocity centre for city simulation. Drawing on the broad cross-disciplinary makeup of our existing research, you will be able to shape
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student. This network involves 19 organisations across 12 countries and will train 14 Doctoral Researchers (DRs). The interdisciplinary network combines physics, chemistry, biology and engineering to train
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approach to integrated catalysis for sustainable synthesis. You will develop automated multistep reactor platforms using liquid handling robotics and continuous flow technology, to enable the combination
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countries and will train 14 Doctoral Researchers (DRs). The interdisciplinary network combines physics, chemistry, biology and engineering to train a new generation of scientists in the development and
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evaluating skin colour differences in terms of cone responses. The project is led by the Colour Technology Research Group in the School of Design. You will have a PhD in applied mathematics or colour imaging
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technology performed in autoclaves for steel embedded in different cement types, coupled with advanced synchrotron and/or lab-based characterisation techniques such as, micro and nano-X-ray Computed Tomography
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(DRs). The interdisciplinary network combines physics, chemistry, biology and engineering to train a new generation of scientists in the development and application of newly developed manipulation and