342 structural-engineering "https:" "https:" "https:" "https:" "University of Michigan Ann Arbor" positions at CNRS
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) in Paris. It will be co-supervised by Catherine AMIENS, from the LCC's 'Engineering of Metallic Nanoparticles' team (https://www.lcc-toulouse.fr/ en/engineering-of-metal-nanoparticles-team-l/ ) and
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substituted with vinyl units are key structural motifs in many biologically active molecules and complex natural products. Their efficient and selective construction remains a major challenge in modern organic
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engineering models for large-scale quantum computers. The aim is for this thesis to develop fundamental expertise in quantum physics and computing, and then share it with other teams in the Q-loop project, so
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)materials: Self-Assembly of Peptides and Polymers (IRIS) team at the ICS. He/she will be depending from the ED222 doctoral school. For more information, please visit the website: https://www.ics
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French research laboratories working on thermophotovoltaic cells, photonic structures, and energy-conversion systems. This collaborative environment will provide the candidate with exposure to optical
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for its complexity and the rich physical phenomena it reveals. Coupling these nonlinear dynamics with a lattice structure, where light can tunnel between sites, enables the exploration of collective effects
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of photocatalysts under reaction conditions. It addresses a key challenge in heterogeneous photocatalysis: the limited fundamental understanding of how photocatalysts undergo structural and electronic changes during
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layered semiconductor characterized by an anisotropic crystalstructure and quasi-one-dimensional ribbon-like morphology. Its electronic structure is predicted to host relatively flat bands associated with
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to develop a breakthrough technology: an autonomous microfluidic system dedicated to detecting foodborne targets. Leveraging the plasmonic properties (LSPR) of antibody-functionalized gold nanostructures, you
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laboratory and will focus on macromolecular engineering, synthesis and multi-scale/physics characterizations of structure/ionic transport properties of self-healing polymer electrolytes. In close collaboration