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The MSN Department is looking for a motivated candidate to synthetize organic products compatible with Porous Liquid Types 1 to 3 technology for CO2 capture and separation applications. About
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This project aims to develop novel catalysts and reaction systems for energy-efficient electrochemical conversion of captured CO2 into liquid fuels. Electrochemical Conversion of Captured CO
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Using capturing carbon dioxide and clean hydrogen is essential for a sustainable future in energy and chemical production. However, the transition is hindered by a lack of efficient, affordable
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transform captured CO2 into green fuels using renewable energy inputs. In addition, we will explore catalysts for zero-carbon fuels (hydrogen and ammonia) that can remove carbon from energy systems. Catalytic
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? Mechanical seals are critical components in high-pressure storage solutions for hydrogen and carbon capture technologies. In this project, you will: Develop a 3D Digital Model: Create an advanced computational
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University but includes satellites at several other Danish and international research institutions. CORC strives to develop knowledge and scalable technology that can be used to capture and recycle carbon
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You will drive forward the application of oxyfuel combustion as an efficient measure for carbon capture. Together with the UMSICHT team and our project partners, you will create solutions
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like bioenergy with carbon capture and storage (BECCS), direct air capture (DACCS), and nature-based solutions — can be responsibly integrated into pathways to Net Zero. It will use an interdisciplinary
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supervisor Dr Lei Xing has built strong track record in circular chemical economy, green energy, carbon capture and utilisation, AI and digitalisation. Supervisors:Dr Lei Xing and Professor Jin Xuan Entry
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join a vibrant, supportive research community (around 20-25 people involved in fluids modelling research). Real-World Impact: Contribute to transformative technologies in clean energy and carbon capture