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immune cells, culture of these, flow cytometry and panel design, and standard immunological and molecular biology methods such as ELISA, and/or WB. Tumour biology, including knowledge about mouse models
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industrial and academic partners. The overall goal of the project is to optimize the design of water eletrolyzers for efficient green energy production. You will be conducting Computational Fluid Dynamic (CFD
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industrial and academic partners. The overall goal of the project is to optimize the design of water eletrolyzers for efficient green energy production. You will be conducting Computational Fluid Dynamic (CFD
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immune cells, culture of these, flow cytometry and panel design, and standard immunological and molecular biology methods such as ELISA, and/or WB. Tumour biology, including knowledge about mouse models
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involvement in behavioural phenotyping or in vivo imaging. Your job responsibilities You will be part of a supportive and collaborative environment and are expected to: Design and execute in vivo experiments
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scientific impact in: Earth system science, by improving our models to reconstruct the evolution of Earth’s landscapes and thus help predict their future. Engineering applications, such as the design of next
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colour centres Determine, design and implement suitable detection sequences for nano-scale quantum sensing In collaboration with local colleagues as well as those at Sorbonne University, determine and
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inversion of FEM and TEM data of variable spatial density and sensitivity. The work will build on a recently developed EM forward operator, with the opportunity to design and implement the inversion engine
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indican concentration and indigo waste as well as the resulting yarn color. Responsibilities Your focus will be on the design and test of optical sensors for process monitoring of indican and indigo in
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inversion of FEM and TEM data of variable spatial density and sensitivity. The work will build on a recently developed EM forward operator, with the opportunity to design and implement the inversion engine