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) to develop computational models for electric breakdown of gases Job description Electric gas discharges occur in nature, most prominently in air in the form of lightning and its less visible precursors
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Chemicals), actively participating in further implementation of high throughput transcriptomics for chemical hazard assessment. The objectives are to 1) develop co-expression models for a range of high
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treatments. Based on the technologies created in the NeuBotics Lab, you will develop a platform that: 1. Decodes the activity of ankle muscle motor units in real-time link to paper . 2. Evaluates
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Medicine Center Utrecht and contribute to pioneering research into regenerative solutions for type 1 diabetes. Specifically, your work will focus on developing a bioengineered, stem cell-derived endocrine
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have developed historically in the Netherlands (and more broadly, in Europe) and how this has contributed to identity formation. You will join us at an exciting moment, as the research team has made a
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Apply now Postdoctoral Researcher in Electrochemical Analysis of Gunshot Residues We are seeking to hire a Postdoctoral Scientist to develop a fast and reliable electrochemical method for analyzing
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automatic tracking of muscle fascicle kinematics. You will be developing a proof of concept of the real-time control of a bionic ankle-foot based on online ultrasound sensing of the ankle muscle fascicle
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and fascinated by human embryonic development? And do you believe in the power of embryo models and single-cell omics approaches to functionally characterise sex differences during early human
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, spinal cord injury etc) through real-time neural control of wearable robotic exoskeletons. You will be developing next-generation (low and high-level) control algorithms for wearable exoskeletons that use
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) are important human pathogens. Recently, a novel imaging technology, VIRIM, was developed which allowed us for the first time to visualise translation of single (entero)viral RNAs in living cells (Boersma et al