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; FACS/FANS and standard cell biological techniques: immunostaining, microscopy, western blotting, and in situ hybridization. Key Responsibilities: Research Activities (70%) This position will support
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coatings. Key responsibilities include: Developing and optimizing advanced surfaces using state-of-the-art thin film technologies Characterizing prepared thin films using scanning electron microscopy and
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support machine learning applications for analyzing electron microscopy images of nanoalloys. Model interactions between nanoalloys and carbon substrates to reflect experimental conditions, incorporating
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cells Analyze RNA sequencing-based transcriptomic data sets Perform immune-staining with flow cytometry analysis, advanced microscopy techniques (light-sheet microscopy, confocal fluorescence microscopy
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méthodes de synthèses innovantes (nouveau banc de synthèse par lévitation aérodynamique et chauffage laser), la cristallographie sur poudre, l'imagerie haute résolution par microscopie électronique en
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: 1 Year Fixed Term Appointment Start Date: Immediate Group or Departmental Website: http://stanfordsumit.com (link is external) https://www.pedrad.radiologyweb.su.domains/ (link is external) How
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environment of the organic molecules have clear impact on the underlying energy landscape and the group uses a variety of structural, spectroscopy and microscopy methods to disentangle the structure-function
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complementary suite of in-house analytical techniques, including spectroscopies (infrared, Raman, UV), powder X-ray diffraction, optical microscopy, and differential scanning calorimetry. These projects
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to traverse genes and complete transcription, as well as those that abort this process by removing or destroying Pol II on genes e.g. https://doi.org/10.64898/2025.12.04.692291 ; https://doi.org/10.1016
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, RNAseq, microscopy, iPSC- derived neuron models and rodent neurobehavior. To be considered, all applicants must submit a cover letter summarizing research experience and describing their motivation