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In the ERC-funded project CASTLe (https://www.castle.unifi.it ) we aim at a fundamental understanding of chirality-induced spin selectivity (CISS) and investigate potential applications in quantum
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In the ERC-funded project CASTLe (https://www.castle.unifi.it ) we aim at a fundamental understanding of chirality-induced spin selectivity (CISS) and investigate potential applications in quantum
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biological, biotechnology and biochemical areas as well as equip you with core data analysis and professional skills that are necessary for bioscience research and related non-academic careers. https
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ICFO’s Attoscience and Ultrafast Optics group works in a highly interdisciplinary field which fuses ultrafast laser physics, extreme nonlinear optics, atomic and molecular physics, SXR spectroscopy
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the synthesis and characterization of catalytic materials, the execution of kinetic tests to evaluate catalytic performance, and operando spectroscopy characterization, which will allow real-time monitoring
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skills in advanced electrochemical impedance spectroscopy, SOEC degradation mechanisms, and functional materials engineering while contributing to next-generation power-to-X solutions. By joining us, you
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spectroscopy analysis method for quality control of pharmaceuticals in the field. Within the framework of the NIR4MED project, our team is tasked with creating an information system and a decision engine for the
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approach combining cryo-electron microscopy, NMR spectroscopy, and advanced molecular modeling, the research will unravel the molecular architecture and conformational dynamics of pili and their interactions
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continuous measurements in moving, active subjects. To this aim, we will explore two approaches: a miniaturized laser speckle contrast imager and a diffuse correlation spectroscopy device, both incorporated
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excited about discovering the ultrafast world of functional organic molecules? Join our team and explore the fascinating universe of molecular photochemistry using cutting-edge time-resolved spectroscopy