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Regular Job Code 9546 Employee Class Acad Prof and Admin Add to My Favorite Jobs Email this Job About the Job In this role, you will have the opportunity to conduct research investigating the molecular
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. Preparation of heterogeneous catalysts. using a range of techniques. ii. Advanced characterisation of heterogeneous catalysts, such as in situ techniques (e.g. electron microscopy, beamline
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nuclear magnetic resonance (NMR), cryo-electron microscopy (cryo-EM), or other biophysical and molecular biology techniques are particularly encouraged to apply. This individual will meet regularly with Dr
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-on-chip systems to model metabolic interactions; Implementation of cell cultures and differentiation of iPSCs; Processing of histological samples for optical and electron microscopy; Analysis
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Commissariat à l'Energie Atomique et aux Energies Alternatives - Groupe | Gif sur Yvette, le de France | France | 3 months ago
techniques including synchrotron radiation induced Hard X-ray photoelectron spectroscopy and complementary structural analysis including high-resolution electron microscopy, X-ray diffraction and near field
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developmental metabolism. In particular, they focus on the emerging concept of autonomous clocks . More information about the lab and their work can be found by visiting https://aydoganlab.com/ . This position is
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programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Postdoctoral position on transthyretin amyloid formation using X-rays, neutrons and electron microscopy
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using advanced analytical techniques, including TED-GC/MS (Thermal Extraction Desorption–Gas Chromatography Mass Spectrometry) to quantify microplastic mass, SEM-EDX (Scanning Electron Microscopy with
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microscopy. A dynamic and highly interdisciplinary team including wet-lab scientists, computer scientists, and clinicians. Cross-disciplinary collaborations and training opportunities to further develop and
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liquid phases have been predicted. It can be realized using atoms with two valence electrons, such as ytterbium or strontium. To investigate such SU(N) physics, our group has developed a quantum-gas