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assays, typically based on fluorescence mediated by biosensors or (bio)chemicals Characterization of assay performance using lead strains Execution of large-scale screening campaigns with up to 1E6 variant
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PhD Research Fellow in Theoretical and Computational Active Matter Physics for Glioblastoma Invasion
and mechanically heterogeneous environments Calibrating and validating models using experimental data from imaging, biosensors, and microchannel assays, in close collaboration with experimental partners
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of the Law – if applicable Link to documents: https://www.pw.edu.pl/engpw/Academics/Information-for-employees/Forms-f… LanguagesENGLISHLevelGood LanguagesPOLISHLevelGood Research FieldChemistry » Analytical
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PhD Research Fellow in Theoretical and Computational Active Matter Physics for Glioblastoma Invasion
to describe transitions between collective and singlecell invasion in confined and mechanically heterogeneous environments Calibrating and validating models using experimental data from imaging, biosensors, and
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analysis related to nanomaterials and biomaterials. 2. Develop and refine experimental protocols, such as biosensor development, plasmonic nanomaterials synthesis and bioconjugation, immunoassay development
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therapeutic strategies, with a focus on precision and patient-oriented approaches. https://nastalylab.gumed.edu.pl THE RESPONSIBILITIES OF THE PERSON EMPLOYED IN THIS POSITION WILL INCLUDE: Conducting
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, fabrication and testing will be excluded. Preference factors: Candidates with demonstrated experience in magnetic sensor applications in biosensors will be preferred, in case all the evaluation criteria
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at any research group connected to the Nano Area of Advance at Chalmers. You find the full list of PIs of these research groups on the Chalmers homepage: https://www.chalmers.se/en/collaborate-with-us
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UNIVERSIDAD CATÓLICA DE MURCIA - FUNDACIÓN UNIVERSITARIA SAN ANTONIO DE MURCIA | Spain | 2 months ago
. • Proven experience in one or more of the following areas: o Electrochemical biosensors o Bioelectroanalysis and bioelectronics o Wearable and implantable sensors o Microfluidic-based electrochemical
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and enhancing the performance of semiconductor nanomaterials across diverse applications in optoelectronics, spintronics, energy conversion, photocatalysis as well as biosensor technologies. Yet