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into district heating networks (DHN), and to study the architecture, sizing, and control strategies for its optimal integration into such networks. Currently, sensible heat storage remains the most widely used
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layer to accommodate lattice mismatch while enabling the active use of Si as a bottom cell. The applicant will be involved in the deposition and optimization of the GaAs, its doping, passivation/contact
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catalysts. Optimization of the catalytic reaction will be carried out by tuning different reaction parameters such as pressure, temperature, concentration, catalyst dosage, etc. Throughout these research
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to the limited time available in the PhD thesis. The present application involves extending this work to characterize devices currently being manufactured at the CEA, as well as designing optimized optical
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300mm etching reactors located in CEA/Leti's clean rooms. It will involve : 1) Create the lithographic design adapted to requirements (GDS) 2) develop/optimize plasma etching processes for AlGaN and GaN
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frame, the postdoctoral researcher is expected to: develop and optimize sol-gel chemical formulations to obtain stable and stoichiometric multimetallic oxide thin films; familiarize with
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- Solid knowledge of existing literature in optimization and/or symbolic computation - Strong skills in programming with scientific and/or symbolic computing tools Website for additional job details https
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rechargeable batteries. In this context, one of the challenges involves optimizing the electrolyte, which determines the stability of the metallic anode, the electrochemical window, and interfacial processes
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. The project will involve: • Synthesis and characterization of proton-conducting ceramic materials and composite electrodes. • Development and optimization of acid-base infiltration protocols for surface
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Department (DRIS), you will participate in research activities on the optimization of non-Newtonian fluid injection for the decontamination of polluted soils. Tests will be conducted, in 1D columns, in 2D