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for the conversion of CO2 into hydrocarbons. The reaction mechanisms will be studied using in situ surface techniques, particularly IR spectroscopy. The catalysts will then be characterized after use by advanced
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systems, the study of their reactivitu toward CO2, CO and H2, and the impact of various substrates and additives. These studies will aim at the development of a cooperative catalytic process able
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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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, 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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selectivity performances of the corresponding membranes for CO2/CH4, C3H6/C3H8 separation as well as water desalination. More specifically, we will implement a non-equilibrium MD simulation scheme to perform
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), the successful candidate will evaluate the response and feedbacks of natural vegetation to changes in (i) climate forcing (e.g. temperature and precipitation) and (ii) GHGs forcings (CO2 fertilization and related