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chemical–biological pathway. The advertised positions will support these efforts through research on advanced carbon capture methods, process modelling and optimization, and biological CO2 valorization in
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-Tropsh, etc. CO2 capture methods (Chemical and calcium looping, absorption, adsorption, membrane, cryogenic, molten salt, etc.) CO2 utilization & conversion to high-value chemicals (e.g., electro/photo
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, Fisher-Tropsh, etc. CO2 capture methods CO2 utilization & conversion to high-value chemicals (e.g., electro/photo chemical CO2 reduction, catalytic chemical conversion, biological, etc.) CO2 mineralization
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Solutions: At BAETA, we transform PET waste into sorbents for capturing and removing CO2.”, which is financed by VILLUM Power-to-X Accelerator (VPX), and the research will take part in the group led by
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the following two research directions: - Electrochemical CO2 reduction: electrocatalyst development; flow reactor design; integrated CO2 capture and reduction. - Electrochemical NOx reduction and building C-N
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of electrocatalysts with 3D active site structures for a variety of reactions, such as oxygen reduction, oxygen evolution, and CO2 reduction. We welcome candidates with a passion for unravelling the fundamental
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Postdoc in Carbon Capture, Utilisation and Storage Techno-Economic Assessment Faculty: Faculty of Geosciences Department: Department of Sustainable Development Hours per week: 36 to 40
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CO2 capture from the atmosphere. Your objectives will include to: Develop new optimization and/or machine-learning based reconstruction and segmentation algorithms to improve image quality in time