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removed, and valuable post-process water streams are frequently discharged due to insufficient monitoring. This project will investigate the fusion of data streams from ultraviolet (UV) fluorescence imaging
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delivery, imaging, or diagnosis. Characterize, understand, the interaction of particulate materials with cells or tissues. Pioneered investigations on particle bio-functionalization, particles uptake
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the research groups active at the KU Leuven Ghent Campus. This funding call is open to all EU and International applicants. Keywords: Digital Image Correlation, Experimental and Computational Mechanics
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to train tomorrow’s leaders in earth and environmental science. For further details about the programme please see http://nercgw4plus.ac.uk/ For eligible successful applicants, the studentships comprises
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Nauki Polskiej” (https://www.fnp.org.pl/component/fnp_programs/program/first-team-feng/n… ). Principle investigator dr inż. Jakub Bogusławski Title of the project: Two-photon fluorescence lifetime
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rzecz Nauki Polskiej” (https://www.fnp.org.pl/component/fnp_programs/program/first-team-feng/n… ) Principle investigator dr inż. Jakub Bogusławski Title of the project: Two-photon fluorescence lifetime
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from quantitative MRI in particle therapy (Politecnico di Milano, CartCasLab, Milano, Italy) [IRP15] Correlating early-appearing medical imaging changes with variable RBE-based dose calculations
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this project, high-resolution spectroscopic imaging will be employed to map chemical changes and structural degradation in the PE material, while correlating these findings with biological responses observed in
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the fields of nanoelectrochemistry, electrochemical imaging, kinetics and mechanisms, hydrodynamic techniques, spectroscopy, microscopy (AFM and STEM), programming, data analysis, and multiphysics modelling
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entanglement will deepen understanding of quantum correlations, guiding the design of robust, high-capacity quantum communication systems. This synergy of practical deployment and fundamental characterization