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of microscopy acquisition protocols, contributing to the development of high-throughput platforms combining electron microscopy and artificial intelligence. PeCATHS is committed to develop an integrated long-term
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project is to develop new biophysical tools based Atomic Force Microscope combined with TIRF microscopy for the study of nucleic acids and proteins interactions at the single-molecule level. Where to apply
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for biomedical applications. Characterization of the materials generated with a wide range of spectroscopy and microscopy techniques, and other physicochemical tools. Using ultrasound-induced materials synthesis
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carbon-based nanomaterials in UHV. Investigation of their structural, electronic and magnetic properties by STM, STS and nc-AFM. Exploring reactivity under different chemical environments. Decoupling
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properties using advanced techniques such as UV-Vis, XRD, XPS, and electron microscopy, with support from specialized core facilities. Correlating synthesis parameters with functional properties (e.g., redox