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hydrogen (H₂) production. Conventional thermal catalytic methods for H₂ production (e.g., steam reforming, water gas shift reaction) requires conditions of temperatures exceeding 500 °C and high pressures
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for reactive synthesis. This allows us to describe dynamic behaviors in complex environments over time. You will work with formal tools such as: Planning domains and temporal logic — to describe the required
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collaboration abilities; Finnish language is not required Strong interest and motivation to conduct high-impact research at the interface of quantum science and photonic technology; Prior experience in an optics
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Job Description We invite applications for a fully funded 3-year PhD position in the Embedded Systems Engineering (ESE) research section at DTU Compute in collaboration with the Technical
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obtaining) a PhD in Chemistry, Materials Science, Engineering, Physics or relevant technical discipline. To perform the role, the applicants will additionally need to have excellent presentation, technical
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institutions Be prepared for changes to your work duties after employment. Required selection criteria You must have an academically relevant background within Hydraulic Engineering. You must have a Master's
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, Electrical Engineering, Mechanical Engineering, or a related field. Equivalent requirements apply to individuals with an education earned outside of Sweden, for example a 4-year bachelor's degree is accepted
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The world is moving rapidly toward renewable energy. Hydrogen is at the forefront as a clean fuel, but its safe storage and use at high pressures require advanced, reliable technology. By joining this project
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by an interdisciplinary team at Chalmers Department of Architecture and Civil Engineering , in collaboration with Gothenburg University and key stakeholders such as housing owners and the Swedish
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We are looking for a PhD candidates for a joint project between the groups of prof. Nathalie Katsonis, prof. Willem Kegel, and prof. Ben Feringa, that will be carried out within the framework