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Programming experience in Python Excellent communication skills and fluency in English Collaborative personality with attention for detail Bonus but not required Experience in imaging or spatial omics data
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imaging/omics and CRISPR/Cas9 technology is a plus. Team-oriented, innovative, and motivated to push boundaries in translational neuroimmunology. Your research qualities are in line with the faculty and
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highly motivated by applied research involving conceptual evaluation as well as experimental evaluation by means of prototype implementations, able to work well in a diverse group, comfortable giving and
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imaging, single-cell RNA sequencing, and spatial transcriptomics. Responsibilities This position is ideal for someone who wants to gain hands-on experience in both research and lab management. You’ll be
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; molecular cloning and genetic manipulation (e.g., CRISPR/Cas9, siRNA); fluorescence/confocal microscopy and/or live-cell imaging; good analytical and problem-solving skills, with an interest in applying
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researchers in the group to build and run safe and effective experimental setups to perform X-ray imaging of fluids in porous media, including experiments at elevated pressure and temperature and with gases
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in developing integrated silicon photonics technology through its renowned iSiPP platform and PDK, and Optical I/O R&D program. This technology is successfully offered via wafer-level prototype
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- Fluidics, MEMS, heterogenous integration, photonics and imagers... What you will do You will work within the Technology Integration & Prototyping (TIP) Department at IMEC as a Process Integration Engineer
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voiding behavior in mice and developed live imaging techniques to visualize sensory signaling in the bladder wall and dorsal root ganglion (DRG) neurons. In addition, we explore these pathways in human
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adults, significantly impacting quality of life, and remain challenging to treat. Our research group has pioneered innovative methods to study voiding behavior in mice and developed live imaging techniques