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Development of a numerical tool for assessing radon prevention and mitigation methods in energy-efficient new buildings and existing buildings A PhD position is available in the Department of Physics
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. The doctoral research will target thermal transport and energy conversion in 2D semiconductors, particularly transition metal dichalcogenides (TMDs). Optothermal and frequency-domain electrical methods will be
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, introduce spatiotemporal inhomogeneities in dose delivery. Such features challenge conventional models but may be naturally incorporated into the RG formalism via spatially varying couplings or external
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specifically designed to gain insight into physical properties of materials at the nanoscale, combining state of the art lithographic and chemical methods with magnetic and electrical transport characterisation
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methods, focusing on their ability to solve hard problems more efficiently. Finally, selected developed techniques will be proposed for integration into real-world computer vision workflows, generating
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characterization of advanced materials with tailored properties for cutting-edge engineering applications. We use electrochemical methods to produce advanced material architectures with high surface-area-to-volume
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characterization methods to prove thermal properties of nanomaterials. Albert has expertise on theoretical development of non-equilibrium thermodynamics and hydrodynamic thermal transport models tailored to describe
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Grant/funding reference: PID2022-139832NB-I00 Job title: Multibody system dynamics methods for backlash detection and monitoring in industrial machinery Research line / Scientific-technical services
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Grant/funding reference: PID2022-139832NB-I00 Job title: Multibody system dynamics methods for backlash detection and monitoring in industrial machinery Research line / Scientific-technical services