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fromCharles University in Prague (Czech Republic). Maim aim of the project is to study the non-equilibrium propertiesof nanoscopic superconducting hybrids, which consist of such elements as semiconductor
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functional analyses using modern technologies: spatial transcriptomics, advanced microscopy (confocal, multiplex, 3D reconstructions, elements of super-resolution/STED), and mechanobiological methods
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of the spectroscopic properties of transition metal ions to changes in local point symmetry is reflected not only in shifts in the spectral position of their emission bands but also in modifications
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the approved research project. Synthesis of inorganic materials doped with transition metal ions and/or lanthanide ions. Characterization of the luminescent properties of the obtained phosphors as a function of
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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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, published in Nature Communications, highlight non-coding RNAs as pivotal regulatory elements, yet their specific mechanisms of integration remain incompletely explored and, in fact, raised many interesting
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arise mainly from the limitations of established catalysts based on transition-metal complexes (Ni, Rh) supported by symmetrically constructed phosphine ligands, which do not provide adequate selectivity
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. Complementary satellite imagery (e.g., WorldView-2, WorldView-3 and Pléiades) will enable broader-scale extrapolation and temporal assessment of vegetation dynamics. The core methodological component of
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with the regulations of the National Science Centre. Additional comments Date of announcing the results: 05.05.2026 Method of notification about the results: e-mail, CeNT UW website Website