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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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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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teaching and competencies in water treatment technology and fish health in recirculating aquaculture systems. The main role of the PhD is to investigate how dissolved CO2 in combination with other water
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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 three
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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