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physical properties is the playground where we are going to develop the thesis proposal. The thesis project will include several objectives and milestones: - Conception and development of novel nanofluidic
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Post-Doc- Combinatorial deposition of functional thin films by Spatial Atomic Layer Deposition (M/F)
on the design and optimization of our system (including through the realization of CFD simulations), the implementation of in situ characterization tools and the deposition and characterization of the films. He
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Matter Chemistry (ICMCB) focuses its research on Solid State Chemistry, Materials Science and Chemistry and Process: designing, preparing, shaping and characterizing materials in order to discover, control
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objective, the mapping of concentration and flow velocity fields, is a matter for analytical chemistry and physics. However, the design and fabrication of the microsphere will involve the preparation of up
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exchange interaction between their magnetic sub-lattices. In this PhD thesis, we propose to design and use a novel detection scheme consisting in integrating the antiferromagnet within a micrometer scale
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of Mathematics (DEMA), Probability and Statistics (EPS), and Geometry, Topology, and Algebra (GTA). Discrete polytopal complexes are recent numerical methods, whose purpose is to design approximations of partial
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fluid-sediment velocity profiling method based on multi-bistatic pulse-coherent Doppler velocimetry which is currently implemented in the Acoustic Concentration & Velocity Profiler technology designed
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, funded by SATT Paris-Saclay, which aims to design thin-film solar cells for autonomous systems. The maturation engineer will manufacture a prototype photovoltaic converter adapted to the planned system
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(ICMCB) focuses its research on Solid State Chemistry, Materials Science and Chemistry and Process: designing, preparing, shaping and characterizing materials in order to discover, control and optimize
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researcher (M/F) for a period of 24 months. This research project aims to investigate the design of nanoscale high-entropy alloys (HEA) confined in a micro-/mesoporous ceramic which acts as a support. As an