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radiobiological mechanisms. By integrating radiopharmaceutical science, immunotherapy, and translational oncology, this project aims to develop a robust combination therapy platform for OC and TNBC which can help
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chelators and bio-orthogonal functional groups, phages can be transformed into modular, programmable carriers for radiotherapeutic payloads. The project combines modern genetic engineering, chemical
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Laboratory (URL) serving as the primary case study. The monitoring strategy combines in situ vibration measurements with advanced numerical simulations. Deep underground structures are strongly influenced by
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promising solution, enabling three-dimensional visualization and, when combined with dual-energy CT (DECT), material discrimination and compositional analysis. This project aims to establish a non-destructive
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ecosystems. The project combines targeted experiments on ionizing radiation, metals, and drought with quantitative modelling, validated on a NORM/legacy case study. The outcome will be an assessment-ready
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psychology, and nuclear research to develop and test innovative approaches for countering false information. Using a mixed-methods, multi-level design, it will combine digital analytics, experiments, surveys
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–microbe interactions, combined with selected circular soil amendments, specifically phosphogypsum residues and biochar- can affect the leachability, retention, and bioavailability of radionuclides in
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boundaries of precision medicine by developing a clinical microscale dosimetry framework for PSMA-targeted RPT in prostate cancer. The innovative core of the project lies in combining high-resolution
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safer energy future, this PhD offers a unique opportunity to combine theoretical rigor with practical impact - while gaining expertise in reactor physics, advanced numerical methods, and high-performance
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to the future of safer, adaptive cancer treatment. The project combines cutting-edge science with a clear clinical mission: to make radiotherapy systems that can think, predict, and protect — in real time. Where