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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 the transcriptomic data and the other datasets generated during the project as well as for the implementation of models to predict toxicity in humans based on the common features observed in the different organisms
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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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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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: This is a full-time position, 2 years initially, renewable. Base salary: RMB 270,000 per year (pre-tax, per person), Living allowance: RMB 100,000 per year (for up to 2 years), Social insurance are provided
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. The successful candidate will be joining the Organic Nanostructured Photovoltaics group led by Prof. Dr. Jordi Martorell to undertake research in the characterization of thin film solar cells based on organic
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) and its TranSIESTA functionality. SIESTA is a multi-purpose first-principles method and program based on Density Functional Theory, which can describe the atomic and electronic properties of systems
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remediation. In this area, the development of new materials based on coatings, nanoaprticles and membranes with outstanding features is a pressing concern. Specifically, materials based on catechol molecules
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environment remediation. In this area, the development of new materials based on coatings, nanoaprticles and membranes with outstanding features is a pressing concern. Specifically, materials based on catechol
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to) SIESTA (www.siesta-project.org) and its TranSIESTA functionality. SIESTA is a multi-purpose first-principles method and program, based on Density Functional Theory, which can be used to describe the atomic