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offer state-of-the art instrumentation and expertise in the fields of flow cytometry, electron and photonic microscopy, proteomics. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UMR7592
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. This involves using cutting-edge microscopy and spectroscopy to investigate their unique electronic, structural, and plasmonic properties. Project 2: Exploring the synthesis of metallene layers sandwiched between
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microscopy and spectroscopy to investigate their unique electronic, structural, and plasmonic properties. Project 2: Exploring the synthesis of metallene layers sandwiched between SiC and graphene
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Quantum Scanning Microscope, enabling magnetic imaging at spatial resolutions from micrometres down to the nanometre scale. Advanced FIB-SEM facilities are available at Utrecht University’s Electron
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candidate will have proven skills in structural biology and a working understanding of cryo-electron microscopy. They will be self-motivated in designing and executing experiments, with a proven track record
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solutions for pressing societal challenges (e.g. communication, artificial intelligence, climate protection, health, etc.) through modern electronic & photonic technologies. The work covers the entire
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https://www.uwo.ca/facultyrelations/pdf/full-time-application-form.pdf Please email the above materials as individual or combined PDF attachments, in confidence to: Dr. Cheryle Séguin, Search Committee
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aims to develop physics-informed artificial intelligence tools for single-molecule fluorescence microscopy. The PhD student will focus on designing AI-based methods for quantitative analysis of protein
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environments and to understand the catalytic properties of the resulting materials using transmission electron microscopy. The researcher will be responsible for these microscopy studies and will work directly
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integrated alpha radiation sources Performing post-mortem analyses (electron microscopy e.g. EPMA, SEM, and X-ray methods e.g. µCT, XRD) Preparing and evaluating solution analyses using ICP MS/OES Publishing