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. The successful candidate will be joining the Ultracold Quantum Gases group led by Prof. Dr.Leticia Tarruell . The Fermi-Hubbard model is a cornerstone model of condensed matter physics. It describes the physics
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of these novel materials for their application in tissue regeneration, infection diseases and cancer. Other applications will be explored as for example in environmental remediation. The candidate will primarily
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of these novel materials for their application in tissue regeneration, infection diseases and cancer. Other applications will be explored as for example in environmental remediation. The candidate will primarily
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, evolutionary theory, quantitative genetics, data science, toxicology, and law. Within this project, our group at the CRG focuses on the analysis of bulk and single cell RNA-seq from five different model species
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into the brain with unprecedented efficiency and selectivity. Key Responsibilities Develop high-throughput screening cell-based BBB models. Utilize advanced molecular biology, proteomics and microscopy to study
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spectroscopy (EDS) and electron energy loss spectroscopy (EELS). The research will involve state-of-the-art nanomaterials for energy and environmental applications as well as nanomaterials for quantum
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diabetes. The successful applicant will develop cell-based model systems such as human stem cell-derived beta cells, using single cell genomic read-outs, and will explore poorly understood genome regulatory
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& Simulation Installation is open to experimental users with no experience in modelling and simulation, as well as to experimental and computational users with experience in the field. Projects from experimental
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quantum dot films engineered at the atomic as well as at the supra-nanocrystalline level to address applications related to safety and security, remote sensing, environmental monitoring, thermal imaging etc