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Your Job: At IET-1, we are studying the CO2 electrolysis for the sustainable conversion of green energy into chemical energy carriers in order to defossilize the chemical industry. The process
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to develop novel strategies that contribute overcoming critical resource bottlenecks in energy devices. The successful candidate will be joining the CO2 Mitigation Accelerated by Photons group led by Prof. Dr
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interdisciplinary research project on production of proteins for food based on a feedstock of CO2 and energy. The positions are based at AU Viborg and/or at AU main campus and are expected to begin on 1 September
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ICFO is offering postdoctoral positions to well-qualified, highly motivated and dynamic young scientists who wish to contribute advance technologies that drive the clean energy transition. The CO2
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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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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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, 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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partners to reduce CO2 emissions in steel production using machine learning. You can find more information here . You will work on a theoretical and an applied project on data-enhanced physical reduced order
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We have a successful record of activating molecular N2 or CO2 through thermal heterogeneous catalysis. For instance, we recently identified a new class of promotion based on spin quenching on Cobalt