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The Electron Microscopy Facility (EMF) at ISTA supports a vibrant international scientific community, with state-of-the-art EM infrastructure. The facility is expanding its application range through
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: Developing and optimizing advanced surfaces using state-of-the-art thin film technologies Characterizing prepared thin films using scanning electron microscopy and surface wetting methods Analyzing and
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morphological analysis such as electron transmission microscopy (TEM) Where to apply Website https://xup.dms.uniroma1.it/Home/CPService Requirements Additional Information Eligibility criteria Eligible
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for homogeneous photocatalysis. Physico-chemical characterization Structural, optical, and electronic analysis of materials (spectroscopies, microscopies, electrochemistry, etc.) to establish structure–property
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or destroy Pol II on genes. The project will combine protein purification, biochemical reconstitution and cryo-electron microscopy to dissect the underlying mechanisms, complemented by cellular approaches in
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position will included tasks related to integration synthetic genetic engineering, time-lapse microscopy imaging, lab-on-chip technology and advanced computer model simulations -- El puesto de investigador
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: Manipulation of ultrashort laser pulses from an industrial ytterbium laser for high-order harmonic generation and photoemission electron microscopy of nanostructured samples. The project's goals, based on a
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support machine learning applications for analyzing electron microscopy images of nanoalloys. Model interactions between nanoalloys and carbon substrates to reflect experimental conditions, incorporating
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plate array microscope for simultaneous time-lapse video microscopy, enabling high-throughput single-cell analyses of rapidly migrating cells. You will be responsible for Developing new machine learning
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multiple length scales, combining tools such as electron microscopy, atom probe tomography, X-ray diffraction, and micro-mechanical testing. About the research project Bone is a remarkable material that