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threats to human and environmental health. This position aims to develop advanced catalytic technologies, including thermal, microwave, and photocatalysis, to convert plastic waste into high-value chemicals
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Job Description We are looking for a postdoc to apply her/his knowledge and creativity in a project that aims to prepare for a practical exploitation of fusion technology, this position will offer
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communication capabilities for real-time monitoring of critical infrastructure. A key application area will be smart grid powerline monitoring, where you will work on: Designing and leading the development of low
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of Concept Grant “Implementation of Super-resolution Ultrasound Real-time microvascular imaging using Erythrocytes” - iSURE. The iSURE project will develop the hardware and software architecture for a novel
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concerted and concentrated research efforts, we aim to pave the way for developing the next-generation electrocatalysts for a broad range of green technologies. At DTU Energy, we have a long-standing legacy
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research and technology stakeholders. The vision of SonicEye is to develop multimodal navigation by enabling AI-powered echolocation and safe decision-making for autonomous robots in uncertain environments
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expected to collaborate with the PhD students in the group. Development of instruments an software You will contribute to developing the experimental instruments, in particular the optical setup and the
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diseases. In this project, the candidate will develop new computational strategies to identify human genetic variation linked to cell fate changes in neurodevelopmental disorders and cancer. The candidate
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and reduction reactions. The research will focus on: Developing synthetic routes to robust new chelating and bifunctional ligands. Employing advanced spectroscopic, electrochemical and X-ray diffraction
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droplet phenomena relevant to energy conversion, storage, and CO2 sequestration. You’ll have the freedom to shape your research within our interdisciplinary and international environment. Your Role Develop