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Field
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. Preferred Qualifications Hands-on experience in analyzing and manipulating seismological/geophysical data. Proficiency with specific background and hands-on experience with deformation assessment and
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systems. The PhD project will utilize a variety of molecular tools to analyze and manipulate biofilms. A particular focus will be on the use of transcriptomics, genetics, and microscopy methods
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systems. The PhD project will utilize a variety of molecular tools to analyze and manipulate biofilms. A particular focus will be on the use of transcriptomics, genetics, and microscopy methods
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) - Knowledge in programming languages like R or Python for data manipulation and analysis - Experience in quantifying plant metabolites with LC-MS - High level of self-sufficiency - Reliable and conscientious
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established techniques for quantum circuit representation and manipulation (e.g. diagrammatic methods like ZX-calculus) towards description of quantum noise employ such extended methods for quantum circuit
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migration of interneurons during corticogenesis. The candidate should preferentially have experience in the following experimental techniques: in utero and in vitro electroporations; manipulation, production
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trustworthy, verifiable, and robust against adversarial manipulations. You will have the opportunity to contribute within one or more of the following research directions: Verifiable training and trustworthy AI
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involved in HORIZON-EIC Pathfinder project. This project combines rapid volumetric 3D printing technology with cell manipulation to create centimetre-long aligned cell constructs within hydrogels
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of DNA/RNA manipulation techniques and design of expression constructs. • General knowledge of in vitro antiviral validation methods (assays on human cell lines). • Understanding of LNP-based approaches
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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