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combination of activities including securing competitive funding at national and European levels, building new collaborations within DTU and with external stakeholders, and initiating high-impact scientific
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industry. Context and motivation The green energy transition is increasingly digital: it relies on turning high-quality (smart meter, grid, or weather) data into actionable insights and better-informed
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circular power electronics. The position focuses on developing and validating new glass compositions that can serve as recyclable, high-reliability substrates for next-generation power electronic circuits
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, through the rational design and optimization of microalgae-bacteria consortia, metabolic pathway regulation, nutrient partitioning, and bioreactor performance. You will become part of an international
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English communication skills (written and spoken) and the ability to work in an international research environment. Motivation to publish in high-quality journals and to engage with stakeholders through
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performance PhD enrolment: Technical University of Denmark DC7: High-resolution waste-derived novel biotechnology feedstock-host background data generation to enable sustainability assessments PhD enrolment
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-on training in advanced biosensing, smart materials, and transdermal delivery technologies, leading to high-impact publications and potential patents. The project provides excellent preparation for academic
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well as development of instrumentation, in particular high-energy instrumentation, i.e. X- and gamma ray detectors and -optics. The division is currently active in the operation of instruments and data analysis from
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domestic or office settings. Note that there is growing trend towards XAI today. Opaque-box models with deep learning (DL) might potentially offer high accuracy but are not explainable due to which there can
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to demonstrate electrically injected nanobeam lasers that use sub-wavelength light confinement to enhance light–matter interactions. The goal is to achieve low laser thresholds together with high efficiency and