66 parallel-processing-bioinformatics positions at Chalmers University of Technology in sweden
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catalytic processes. The work aims to advance technologies that enable more resource-efficient and environmentally friendly production methods. About us This position is at Chemical Engineering division
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500 life cycle experts. We work to advance and integrate life cycle action in all decision-making processes with the aim to enhance resource efficiency, promote a circular economy, and foster innovation
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about 500 life cycle experts. We work to advance and integrate life cycle action in all decision-making processes. We aim to enhance resource efficiency, promote a circular economy, and foster innovation
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qualifications Marine biogeochemical processes Hydrodynamic processes related to ships, turbulence, or mixing Oceanographic modelling Data analysis and programming (e.g., MATLAB, Python, or R) Interdisciplinary
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foundations in all activities at Chalmers. Application procedure The application should be sent electronically and be attached as pdf-files, as below: CV: (Please name the document as: CV, Family name, Ref
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. Within the division, the Kádár Group conducts research in the broader field of rheology and processing of soft matter. Our ongoing projects center around three main areas: Field–matter interactions
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the entire industrial process — from identifying needs to delivering the final product — while generating added value. The department stands out both nationally and internationally through its ability
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commercial state-of-the art MMIC foundry processes and world-class measurement infrastructure allowing for a successful completion of this research project. At the Microwave Electronics laboratory currently 5
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polymers and on the development of spinning processes for manufacturing conducting polymer fibers used in wearable electronics. A summary of the research field can be found in a recent review . Project
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machine learning, computer vision, and materials science. The focus of this position is on development of neuro-symbolic models for the effective behaviour of the complex microstructure of recycled