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lab website at https://urology.ucsf.edu/research/chu-lab . Required Qualifications: Must have a Bachelor's degree or have at least four years of research experience in Biology, Biochemistry, Genetics
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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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work spans nanowire materials development (based on Molecular Beam Epitaxy growth), electron microscopy for structural characterization, cleanroom fabrication of nanoscale devices, and advanced
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Doctoral student in development of nanowire devices for photonic neuromorphic computing (PA2026/472)
experimental studies of electronic, structural, and chemical properties of materials, as well as on accelerators and instrumentation for Synchrotron radiation. The Division of Solid State Physics
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. Preferred Qualifications Bachelor's degree in a scientific field that includes substantial laboratory work. Experience in advanced scientific technical skills, e.g., microscopy, microbiology prep, media prep
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: ultraviolet-visible spectroscopy, X-ray diffraction, scanning and transmission electron microscopy. Photoelectrochemical techniques: scan voltammetry, chronoamperometry in the dark and under illumination
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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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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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. Special priority will be given to candidates that study cellular and molecular processes using high-dimensional biological data such as single-cell or spatial omics, structural data, advanced microscopy
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seeks to define the life and cell cycles of N. perurans and Perkinsela in detail using light, fluorescence and electron microscopy. In particular, whether the replication of N. perurans and Perkinsela