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to build a controlled microenvironment in the form of a gliovascular interface on a chip in order to make detailed measurements of glymphatic regulation using advanced imaging techniques. The successful
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and other material processing techniques, focusing on the integration of organic and inorganic materials. You will carry out in-depth structural and performance characterization, including permeability
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frequency with novel optical solutions. You will target multi terabit/s rate per lane and operation across a wide range of carrier frequencies, including both C-band and O-band. You will have a strong track
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, processing and utilization as animal feed. As the successful candidate you will gather data from partners on crop cultivation, feed production and animal impacts to develop a fully life cycle analysis
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‘toolkit’ for formulation development, enabling them to bring novel eyecare treatments to market. Candidate Profile: PhD in Pharmaceutical Sciences or a closely related discipline. They should have a strong
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. The ideal candidate must have or be close to having a PhD in a relevant academic discipline. They will have experience in at least one of the research project areas, be able to collect data from multiple open