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- Delft University of Technology (TU Delft); 26 Sep ’25 published
- Delft University of Technology (TU Delft); today published
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sensor platform for PFAS detection in environmental and food samples. PhD candidate in Molecular Imprinting and Device Fabrication at the Sensor Engineering Department Job Description This PhD project aims
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an electrochemical sensor platform for PFAS detection in environmental and food samples. PhD candidate in Molecular Imprinting and Device Fabrication at the Sensor Engineering Department Job Description This PhD
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range of sensors, part of mobile phones, vehicles, and Internet of Things devices, generate data continuously. Data science technologies, spatial data, and geo-visualization techniques open unprecedented
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, quantum networks are slowly becoming a reality. The coordination algorithms that govern their operation are unlike those employed in classical networks, necessitating novel verification approaches. The goal
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language. - While our current digital infrastructure relies on classical networks, quantum networks are slowly becoming a reality. The coordination algorithms that govern their operation are unlike those
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on classical networks, quantum networks are slowly becoming a reality. The coordination algorithms that govern their operation are unlike those employed in classical networks, necessitating novel verification
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optimizations tailored to different environments. The optimizations range from algebraic optimizations (e.g., term rewriting) to algorithmic optimizations (e.g., group level algorithms), and to hardware
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, medical devices, or soft-tissue phantoms is highly valued. Familiarity with system integration, sensor technologies, or imaging modalities (e.g., X-ray fluoroscopy, endoscopy) is considered a strong asset
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, employees, IT infrastructure, specialized training). Second, they may require the use of quantitative models, data analysis, and algorithms, but these applications must also safeguard the data privacy and non
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-qualified biosensors for detecting molecular biosignatures during planetary exploration missions. The LMCOOL system uses integrated photonic circuits with asymmetric Mach-Zehnder Interferometer (aMZI) sensors