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Field
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of the permeability and selectivity of hybrid and composite polymer/MOF membranes for oxygen and carbon dioxide. - Hemocompatible coating of membranes - Modelling & Optimization of gas permeation of hybrid and
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sustainable fluorination reactions. Under the supervision of Dr. Chris Ewels, a CNRS Research Director and expert in DFT modeling of nanocarbon materials, the postdoc will lead Work Package 2 (WP2), which aims
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probe flavin chemistry using a powerful combination of approaches: the design of biomimetic flavin models (lumiflavin-based systems), detailed mechanistic studies in solution, and state-of-the-art gas
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systems, induce instabilities and influence optical and thermal signatures. The nature of the metal/alloy used determines the combustion regime involved (gas-phase or surface heterogeneous), and therefore
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and field monitoring work performed by a PhD student at LIST and other researchers in LAFI, and extend the existing Vegetation Optimality Model (VOM, https://vom.readthedocs.io ) to test the following
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modelling of 106Ru atmospheric transport in 2017 over northern hemisphere, Journal of Environmental Radioactivity, Volume 275, 2024, 107416, ISSN 0265-931X, https://doi.org/10.1016/j.jenvrad.2024.107416
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candidate will contribute to the theoretical and physical chemistry aspects of the project, with particular emphasis on the analysis and modelling of non-equilibrium chemical systems and reaction–diffusion
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, fluid, and gas transfers on the formation of resources such as natural hydrogen. This issue will be re-evaluated in the Aquitaine Basin and the northern Pyrenees. Where to apply Website https
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and field monitoring work performed by a PhD student at LIST and other researchers in LAFI, and extend the existing Vegetation Optimality Model (VOM, https://vom.readthedocs.io ) to test the following
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. Appointment Start Date: Preferably by July 2026 Group or Departmental Website: https://hph.stanford.edu/ (link is external) How to Submit Application Materials: Submit all application materials