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of performance for magnetic hyperthermia (MHT), magnetic particle imaging (MPI), and sensing applications. The position offers a unique opportunity to bridge fundamental magnetism, advanced nanofabrication, and
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minimally invasive surgical tools Integration with bioelectronic functions (e.g., sensing) for closed-loop controlled diagnostic and therapeutic functions. Demonstration as robotic/biomedical devices for real
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approach integrating ICP MS, ion selective electrode sensing, and ion chromatography to analyze the release of transition metal ions from the cathode into the electrolyte, as well as the formation
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models for individual-level risk prediction using heterogeneous data (psychological and biological profiles, ecological momentary assessment (EMA), and time series sensing data) Applying, evaluating, and
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research combines atomic physics, quantum control, and scalable architectures for fault-tolerant quantum computation, hybrid quantum simulation, and quantum-enhanced sensing. Project background Our group