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is also known for the development of the Nanoimager microscope and the founding of Oxford Nanoimaging (https://oni.bio/ ). The group recently moved in the new Kavli Institute for Nanoscience Discovery
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application! The position You will work on research aimed at understanding how mechanical forces in the tumour microenvironment influences cancer progression, with a particular focus on skeletal cancer
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, PNAS 2020; Mazumder, eLife 2021; El Sayyed et al Mol Cell 2024). The group is also known for the development of the Nanoimager microscope and the founding of Oxford Nanoimaging ( https://oni.bio
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How does experience shape the brain? We aim to understand why distinct experiences result in adaptation through learning, whilst others can lead to unsurmountable stress, psychiatric and behavioural
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. Collaborate with ongoing efforts in interface characterization (X-ray based spectroscopy and microscopy) and engineering (e.g., atomic layer deposition, artificial interfaces) and advanced battery modeling
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and thickness. Perform comprehensive characterization of perovskite thin films using techniques such as X-ray diffraction (XRD), scanning electron microscopy (SEM), atomic force microscopy (AFM), and UV
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using microscopy techniques, including Scanning Electron Microscopy (SEM) and Atomic Force Microscopy (AFM). The candidate will also map the nanomechanical properties of implant surfaces, assessing
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optically, spectroscopically, and electrically. He or she will also be required to characterize samples using Raman, optical absorption, and atomic force microscopy, as well as develop dedicated optical
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ELISA. A drive to lead and progress science with a sense of urgency, exemplified through timely realisation of results and publications. Good experience of microscopy techniques, especially confocal and
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: collaborate with the group of Dr Arnold Boersma at the Bijvoet Centre to develop novel sensors for measuring macromolecular crowding in C. elegans; use advanced fluorescence microscopy techniques, complemented