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information and quantum computing? Do you enjoy studying complex quantum mechanical systems both from a physical and a mathematical perspective? Are you an innovative and productive team player who enjoys being
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The Dynamics of Biomolecular Networks (DYNABIO ) cluster of excellence at the Université Côte d’Azur (Nice, France) brings together 85 research teams from six local biology institutes: C3M (Centre
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Computing on the one hand and the study of Complex Quantum Many-Body Systems on the other hand. To this end, the team applies a combination of methods from Mathematics as well as Physics, complemented by
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controlling cancer cell biology. Your research focus will be on (1) the molecular mechanisms underlying the action of the oncoprotein MYC; or 2) the role of chromatin remodeling complexes in regulating access
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. Development of national and international networks and collaborations in research. Your specific tasks will consist of developing a research project within the field of nuclear RNA biology. Your profile
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microscopy (cryo-EM), electron tomography (cryo-ET), and structure prediction. As structural biology expands toward in situ cellular complexity and high-throughput computational exploration of predicted
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involving the design, synthesis and application of small molecule-based chemical tools to address complex biological questions. If you can demonstrate independence of thought and a strong ability to develop
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, our scientists collaborate across disciplines to unravel the complexities of disease at the systems level – from molecules and cells to organs and entire organisms. Through strong academic, clinical
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. The position requires a strong experimental background, the ability to manage complex field operations, and the vision to translate laboratory findings into scalable real-world applications. This is an
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SD-26006 PHD STUDENT IN METAL DECORATED METAL OXIDE NANOSTRUCTURES FOR ENHANCED PLASMONIC LIGHT H...
-electronic behaviour of complex 3D nanostructures. You will address two key scientific challenges: 1. Tailoring nanoparticle morphology — achieving precise control over Au nanoparticle growth via thermal and