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culture and in tissue models. In this project, you will infect human cells with HMPV and use cryogenic electron tomography (cryo-ET) with subtomogram averaging to solve the structure of HMPV virions. You
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temperature, and abuse scenarios). These datasets comprise multi-modal, multi-scale measurements, including time-resolved X-ray radiography and tomography, coupled with electrochemical and thermal data
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Position Summary This position involves the development, implementation and refinement of novel image reconstruction methods for photoacoustic computed tomography (PACT). This will involve
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, contributing to cutting-edge research with relevance to human health. You will support ultra-structural imaging experiments using cryo-imaging techniques such as cryo-SIM and cryo–X-ray tomography, alongside
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experimental approaches for structural biology (e.g., cryo-electron microscopy/tomography, X-ray crystallography) is a significant plus. Experience with antibody engineering (e.g., expression, stability, binding
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characterization experimental campaign (X-ray tomography) - A structural-scale experimental campaign (walls) - formulation of raw earth materials for extrusion - physical characterisation of geomaterials
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work on cryo-electron tomography studies of regulatory synapses at the axon initial segment of neurons. Expected start date and duration of employment The starting date is 1st September 2026, or as soon
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us to better predict their future survival, improving their local-global conservation policies. In this project, we will address this by combining high-resolution micro-Computed Tomography and AI
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work on cryo-electron tomography studies of regulatory synapses at the axon initial segment of neurons. Expected start date and duration of employment The starting date is 1st September 2026, or as soon
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and validating scattering‑correction and calibration workflows that yield quantitative attenuation coefficients, and (2) designing adaptive tomography approaches that reduce acquisition time while