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electrophysiological recording (cMOS Multielectrode array) and calcium imaging and optogenetics. The long-term goal is to understand how cortical organoids process information. For this aspect there will be
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individual on an upward trajectory and will fully support applications for independent fellowships to follow this initial post. Applicants should hold a PhD (or equivalent) involving neuroimaging, cognitive
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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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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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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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capabilities by harnessing the unrivalled power and adaptability of human brain neurons. This Research Associate position will support the project by inferring the processes that take place within a cortical