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to develop Computer Vision algorithm and Interfaces for collaborations with Historians teams. Specifically, the research will focus on structured data with clear repeated patterns, such as characters in a text
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materials, heterogeneous catalysis, and the study of structure–property–performance relationships. The candidate will benefit from a stimulating research environment at the crossroads of material synthesis
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), Biochemistry (production and purification of protein complexes), Structural biology (cryo-electron microscopy and image analysis). The final goal is to build a mechanistic model of substrate recruitment by
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controlled via structural phase transitions or external fields. The successful candidate will develop and apply a range of theoretical and computational methods based on first-principles electronic structure
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Responsibilities: (1) Conduct X-ray diffraction (BCDI) and electron microscopy experiments to analyze the crystalline structure and strain distribution of protein-superlattices in sponge spicules. (2) Develop and
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: electronic structure calculations (plane wave DFT if possible), statistical thermodynamics, molecular dynamics. Skills in Python, bash scripting, Fortran 90 and machine-learning would be appreciated. The PIIM
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Sadron Institute. The team works on themes related to the process-structure-property correlations of pi-conjugated materials for applications in organic electronics. The SYCOMMOR team has particular
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from ISMO's facilities as well as support from the laboratory's technical departments (mechanical workshop, instrumentation, electronics, and computing services). All components of the experimental setup
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mobility: research stay at the University of California - Structures-Computer Interaction Laboratory, Los Angeles Additional Information Work Location(s) Number of offers available1Company/InstituteIMT Nord
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of Fundamental Electronics (IEF). In 2018, the teams moved into a building located at the heart of the Paris-Saclay Campus. The objective of this thesis is to study the mechanisms of optomechanical coupling in