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to the development of advanced methods for electrode fabrication, with a particular emphasis on electrophoretic deposition. You will also conduct electrochemical testing under applied magnetic fields to improve
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this role, you will focus on developing catalysts and carrying out detailed characterization experiments that can support the future production of electrofuels and electrochemicals. You will be part of a
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to manipulate microscale objects, cells and nanoparticles. Based on acoustofluidic principles we develop medical applications such as isolation of circulating tumorcells from cancer patient derived blood samples
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top research infrastructure both locally, at the department level, and institution level. Division We are interested in studying adaptive immunity, focusing mainly on B cell development and
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, at the department level, and institution level. We are interested in studying adaptive immunity, focusing mainly on B cell development and immunoglobulin gene diversifications in the context of inborn errors
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Close collaborations with the New York Genome Center and with the infrastructure platforms at SciLifeLab An opportunity to develop an internationally competitive research profile and networks as
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improving material and energy systems across multiple applications, including: High-temperature corrosion prevention Development of advanced fuel cells Recycling of valuable materials Innovations in nuclear
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across multiple applications, including: High-temperature corrosion prevention Development of advanced fuel cells Recycling of valuable materials Innovations in nuclear energy Our collaborative and dynamic
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fellow aims to give the employee an early opportunity to develop his independence as a researcher after completing his doctoral degree and to create the conditions for further qualifications. The person
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(https://costar.jpl.nasa.gov/ ). Subject description Robotics and artificial intelligence aim to develop novel robotic systems that are characterized by advanced autonomy for improving the ability