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understanding of the advantages and disadvantages of pyrochemical and hydrochemical recycling routes. Perform thermodynamic simulation and modelling activities to support the experimental design, enhance
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regulations that provides both incentives and constraints for the maritime energy transition and emission reduction. The research objective of the PhD is to develop models that capture the interaction between
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together with other members of the international team, in particular with 2 post-docs (see other advertised position ) and 1 other PhD student working on the WEL-T project to develop anionophores
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-impact career paths in research and higher education, within academia, research institutes, or industry. We will employ a PhD candidate to perform research on development of an AI model that “understands
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(FEUP), under the scientific supervision of Professor Doctor Ana Rita Lado Teixeira Ribeiro. Grant duration: Initial duration of 4 months, with the predicted starting date in October 2025, on an exclusive
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designing, developing and evaluating systems and models to enhance learning through AI technology. The PhD fellow will engage with developing and evaluating models and agents, as well as, multi-agent networks
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of periodic chiral systems and improve current software limits. ii) design computational protocols to perform applications of the developed software. Expected Results: simulate, predict and rationalise
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, including designing, developing and evaluating systems and models to enhance learning through AI technology. A part of this work is also to consider opportunities for innovation related to start-up companies
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15 active researchers at the assistant, associate, and full professor levels, as well as 10 PhD and post-doc students. Our faculty members conduct and publish research on a wide range of topics
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seasonal emissions such as winter CH4 emissions, using AI tools to develop upscaling tools or upscale to circumpolar region, or using climate modeling such as the Norwegian Earth System Model to constrain