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these methods with cutting-edge 3D confocal microscopy and fluorescent labelling, in collaboration with world leaders in organoid culturing technologies. Your methods will enable you to map the spatio-temporal
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(‘synthetic tissues’), using advanced 3D fluorescence time-lapse imaging and fabrication techniques to create microscopic 3D surfaces with bespoke chemical patterns. These patterned surfaces will be used
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follow individual cells as they grow, move, and differentiate to form branched duct architectures in mammary gland organoids. Using advanced 3D imaging, genetic engineering, and AI-driven cell tracking
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spectroscopy, correlative measurements, holography and perform 3D tomography of complex geometries. In this project, we will investigate the potential use of CL spectroscopy in a scanning electron microscope
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, correlative measurements, holography and perform 3D tomography of complex geometries. In a parallel project, we use high-power laser pulses to induce very strong optical near fields that change the energy
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, correlative measurements, holography and perform 3D tomography of complex geometries. In a parallel project, we use high-power laser pulses to induce very strong optical near fields that change the energy