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refrigerators (collaborative European project EIC Pathfinder with 9 partners from 4 different countries https://frostbitproject.eu ), we are looking for a postdoctoral researcher to join us at CRM2[1
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approaches for constructing 2D heterostructures for DFT calculations Develop, implement, and apply new approaches for constructing 2D heterostructures; compare the results obtained with reference methods
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and X-ray techniques with temporal resolution from femtoseconds to picoseconds. Further information is available on the website: https://ipr.univ-rennes.fr/en/materials-and-light-departement Where
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charge/discharge cycles. The aim is to provide a unique tool to better understand the structure and evolution of interfaces/interphases in batteries, and thus, guide the design of more efficient and
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selectivity and permeability and ultrahigh water permeability combined with high salt rejection. The objective of this work is to construct atomistic models of MOFs/Polymers and Artificial Water-Channel
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out fundamental studies in the physics of materials, with the aim of understanding the formation of microstructures or nanostructures, their evolution and the associated macroscopic properties
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understanding its internal structure. Interpreting these geophysical data to model planetary structure and dynamics depends on understanding the physical properties of materials under relevant pressure and
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, the consequent high-power densification as well as the urgent energy transition, imposes challenges for both materials nanoengineering and energy management towards efficiently waste heat dissipation. To make
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Environments and Materials in Poitiers (IC2MP, UMR CNRS 7285), within the Applied Quantum Chemistry group of the Catalysis and Unconventional Environments team (https://ic2mp.labo.univ-poitiers.fr/ ) Where
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key materials—generally nickel-based superalloys—that make up turbine blades with ceramic matrix composites (CMCs). These composites combine lightness, thermomechanical strength and damage tolerance