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energy, ICT, and life sciences. About the research project The research is about integrated cooling and heat dissipations solutions using low-dimensional materials such as graphene, hexagonal boron nitride
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, fabrication, and innovation to tackle challenges in energy, ICT, and life sciences. About the research project The research is about integrated cooling and heat dissipations solutions using low-dimensional
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established in the areas of electronic and electromagnetic simulation and design, machine learning and artificial intelligence in electrical engineering, electrical low-frequency and high-frequency measurement
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—but are challenging to analyze. The project aims to move beyond black-box prediction by learning low-dimensional latent representations that capture these underlying physical processes. Examples
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to achieving the project’s objectives by developing innovative extraction routes based on integrated hydrometallurgical techniques. The work will emphasize low-carbon emissions and the reduced use of hazardous
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Luleå University of Technology is established in the areas of electronic and electromagnetic simulation and design, machine learning and artificial intelligence in electrical engineering, electrical low
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vehicles, in particular along the line of radar-based and multimodal sensing for low-visibility environments. This position is funded in part by the research project Clearpath, which is performed in
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or sources of CO2 and other greenhouse gases? 2) Is this status changing with global change, and if so, in what direction? In the project we will develop low-cost sensors to obtain high-resolution measurements
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annihilation upconversion (TTA-UC) is a process that converts two low-energy photons into one with higher energy. To maximize the upconversion yield, it is important to have a clear understanding of the driving
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cell (LEC). LECs are currently attracting increasing interest from both academia and industry since they: (i) can deliver bright and easily patterned light emission at low voltage; (ii) can be thin