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Field
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, field effect transistors, photorefractive devices and photovoltaic cells require high performing organic semiconducting materials. This project focuses on using liquid crystals and liquid crystal polymers
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Research subject: Physical design of twisted liquid crystals, optical properties and applications in biomimicryWe seek a highly motivated applicant interested in questions about the research topics
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topics “Physics of chiral cholesteric liquid crystals: design, optics and structure” and “Biological liquid crystals with their biomimetic versions”. The experimental methods include a strong effort in the
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applied to liquid crystal sample and resulting dynamic phenomena will be systematically registered and analyzed. The candidate (M/F) will be closely guided by advisors and host group Singular and will
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objective of this project is to design and implement new experimental systems and theoretical models, based on confined chiral liquid crystals, allowing us to specifically determine how the chirality of a
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crystal-rich magma bodies (mush), while crystal-poor domains (magmatic suspensions) are limited to localized lenses and are probably ephemeral. In such systems, the separation between crystals and liquids
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themes "Physics of chiral cholesteric liquid crystals: design, optics and structure" and "Biological liquid crystals and their biomimetic versions". The experimental methods of the project include a major
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RAP opportunity at National Institute of Standards and Technology NIST Dynamic Atomistic Predictions of Crystalline, Crystal Defect and Liquid Metal Properties Location Material Measurement
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supervisor, Michel Mitov, CNRS Research Director, leads the research subject, which brings together concepts from soft matter science, liquid crystal physics, optics of chiral liquid crystals, biological
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formation within directionally solidified single crystal (SX) castings, and their role in the reduction in mechanical performance, through novel experimental methods, computational materials engineering