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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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transition” Research unit is coordinated by Dr. Angelica Chiodoni (https://adv-char.iit.it/ ), who has extensive experience in materials characterization, technologies for energy transition and advanced
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chemical, steel and cement. Specifically, FLARE will demonstrate a significant impact on these sectors, including energy cost reductions of 10–15%, CO2 emissions reductions of 15–20%, waste reductions of 10
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weathering rates. We focus on past geo-biosphere feedbacks in a region with unusual faunal paleobiodiversity, targeting temperature and CO2 levels similar to those predicted for the near future. Your Tasks
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(for 12 months) will be to study new methods for the synthesis and post-synthetic treatments of coordination polymers using supercritical fluids such as CO2 and NH3. The unexplored frontier between
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energy technologies and CO2 sequestration. This position includes a 12-month initial appointment, available starting immediately, with the possibility of renewal contingent upon available work
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, the missions will consist of (i) effectively integrating sediments into these OBMs, (ii) comparing them with ocean color measurements and products, and (iii) analyzing the effect on CO2 fluxes at the air/water
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of C4 grasslands and savannahs using the latest CMIP6 climate projections. Collaborate with geologists and climate modellers in the team to infer the climate conditions and CO2 concentrations at which
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tools that enable the accurate prediction of the CO2 uptake of cement-based materials during their service life. In line with the Fit-for-55 plan, Flanders aims to reduce CO₂ emissions, pushing the cement
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and Distributed Systems: https://www.cs.aau.dk/research/distributed-embedded-intelligent-systems/ The Department of Computer Science features a broad range of synergistic activities within research and