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and carbon dioxide (CO2) storage. This PhD project aims to address the issue of mineralization in the context of geological CO2 storage by leveraging cutting-edge experimental tools like micromodels
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, it may also be a solution to reduce the environmental impact of these materials. Recent studies on utilization of CO2 in concrete production have been focused on the CO2 treatment on recycled concrete
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, e.g. temperature, but do not know how BVOC emissions will respond to increased atmospheric CO2. For example, will BVOC emissions track the increases in net primary productivity and tree growth observed
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-based CO2 captu Apply for this job See advertisement This is NTNU NTNU is a broad-based university with a technical-scientific profile and a focus in professional education. The university is located in
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the Rothera timeseries (https://www.bas.ac.uk/project/rats/ ) forwards. You will explore the effects of variable sea ice and of a shift to a long-term low sea ice regime on ocean CO2 uptake for Rothera, using a
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with engineered redox enzymes. The nanoscale confinement provided by the viral capsid will facilitate electron flux between PSI and the redox enzymes and thermodynamically drive efficient reduction of CO2
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machine learning methods to monitor CO2 and NOx emissions using the upcoming satellite missions (e.g., CO2M, TANGO, Sentinel-4/5). Your research will contribute directly to monitoring global efforts
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approach to recycling critical metals (Co, Li, Ni, Mn) contained in LIBs. The approach is based on the use of supercritical CO2 (scCO2) assisted by polymers composed of CO2-philic units to confer solubility
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researcher to strengthen our efforts in advancing CO2 conversion through the development of innovative solid catalysts. You will join a collaborative team of chemists, engineers, and materials scientists
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relation with energy generation, CO2 sink building materials synthesis and materials recycling. In the frame of this project, the recruited researcher will specifically work on: (i) the multi-scale