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Field
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and structure acoustic and elastic wave propagation. To achieve this goal, computational and theoretical platforms will be established in the first part of the project as a first foundation. This will
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approaches based on density functional theory (DFT) have been introduced in recent years. A new research theme, "organometallic structures (MOFs)," has been introduced more recently, proposing the use
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/ Partnerships Partners of the PEPR DIADEM – CINEMA project funding this PhD: IRCER, Institut P’, ILM https://www.pepr-diadem.fr/projet/cinema-2/ Scientific Field and Context The optimization of growth–property
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experimental measurements will be conducted to characterize key physical parameters, including temperature gradients, cooling rates, and surface and structural integrity, using multi-scale and Multiphysics
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; Giauque et al., 2023). The PhD work is structured around the following key milestones: 1. Implementation and validation of real-gas model: Develop, verify and validate real gas equations of state capable
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measurements under electrochemical control. By combining plasmon-enhanced vibrational spectroscopy (SEIRA/SERS) with electrochemistry, the project seeks to elucidate structure–function relationships in redox
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parameter, allowing one to explore the amplification of disturbances with arbitrary wavelengths. Figure 2 show the most amplified spatial structures computed in a boundary-layer flow over two-dimensional
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structural data, which requires laboratory based as well as on-site analyses. The main objectives are as follows: Compile legacy data of stained glass windows, this requires extensive data curation and
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industrial partners. - Construction of electrochemical cells incorporating specially designed magnetic field sources, including quantitative measurement of local magnetic fields. - Implementation of tools
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techniques available at the IRCELYON and IFPEN laboratories. - Catalyst synthesis - Characterization of surface structure and reactivity, acid-base properties - Catalytic tests on model reactions - Kinetic