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assessing zooplankton–cyanobacteria interactions., Analyse cyanobacterial morphology using microscopy, Learn to prepare samples for mass spectrometry analysis, Assess strain-specific effects of zooplankton
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image reconstruction methods in a cell microscopy setting using image sequences as well as focus stacks Investigate instance and panoptic segmentation for endosymbionts and track them over time Implement
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-generation imaging technologies to map the molecular and structural architecture of the brain with nanoscale precision. We integrate Expansion Microscopy (ExM) with neurobiology to uncover mechanisms
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Integration of macroscopic (magnetic resonance imaging) and microscopic (multi-cell microscopy) brain phenotypes with single-cell transcriptomics; o Predictive modelling of late-life dementia from midlife
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Massachusetts Institute of Technology | Cambridge, Massachusetts | United States | about 2 months ago
/urn:aaid:sc:US:fc18d7af-e659-4a08-8f8b-dddb00530704 Job Requirements REQUIRED: Ph.D. in biochemistry, structural biology, biophysics, or a related discipline; demonstrated expertise in transmission electron microscopy (TEM
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arrival date of the university central mail service or the time stamp on the email server of TUD applies), preferably via the TUD SecureMail Portal https://securemail.tu-dresden.de by sending it as a
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microstructural examination using electron probe microanalysis. Where to apply Website https://www.sckcen.be/en/thesis-and-internship-topics/sintering-kinetics-and-me… Requirements Research FieldEngineering
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modification of bulk and layered 2D materials, especially TMDs. Design and implementation of defect engineering approaches to tailor catalytic, electronic, and sensing properties. Advanced structural
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Printing, fermentation, etc.) is desirable. Knowledge of the structural properties of foods and techniques for studying them is central to the job. Proficiency in microscopy (light, confocal, electron) and
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studies on human muscle samples after detailed instruction; a variety of cellular a molecular assays in muscle biology to potentially include fluorescence microscopy, gel electrophoresis, western and