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on the relationship between molecular/electronic structure and spectroscopic parameters, especially those in magnetic resonance (EPR/NMR). The aim of the project is to deepen our general understanding of relativistic
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acid is known, providing the key advantage for customization for vaccination and drug delivery. The computational results will be verified by fluorescence and electron microscopy. The ideal candidate
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for more effective treatments. One promising strategy involves mRNA-based cancer immunotherapy vaccines, which require a drug delivery system capable of reliably reaching the cytosol. Developing
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spectroscopy and scattering methods. The primary aim is to elucidate the structural and dynamical properties of lipids in asymmetric membranes, particularly their interactions with integral membrane proteins
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translocation malfunction is involved in numerous diseases including cancer. The research is strongly coupled to collaborations with excellent experimental teams and will be more closely discussed during