22 Arts and Literature positions at PhD Programme "Gene Regulation in Evolution" in PhD
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colonial legacies are complex, collective, cumulative, and intergenerational. As a result, the practical demonstration of the role of art to build mental health resilience and act as a marker of water
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in molecular/cell biology and immune biology. Excellent communication skills and fluency in English are required. We offer you: - A varied and professionally demanding position in a state-of-the-art
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an overview of relevant academic literature and design the three studies of the project. Together, successfully completing these studies will lead to a PhD dissertation. You will: Manage the project, e.g
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submitting personal information. With regard to personal information, please take note of the Datenschutzhinweise gemäß Art. 13 Datenschutz-Grundverordnung (DSGVO) zur Erhebung und Verarbeitung von
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, environmental uncertainties, and safety considerations. • Compare and benchmark the performance of AI-based AOCS algorithms against traditional control methods and state-of-the-art approaches, highlighting
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to model CFRP components with higher efficiency and accuracy. The tools will incorporate state-of-the-art computational techniques, such as high-order finite element methods, reduced order modelling
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reported in the literature and done within our groups, the successful candidate will carry out an extensive review of various business models, in particular those developed in the biorefinery industry in
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concerning the thermo-mechanical interaction between metallic TT-elements and composite constituents. Benefiting from the state-of-the-art facilities at Cranfield University's Composites and Advanced Materials
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aureus (Orazi et al. mBio 2019). You will apply state-of-the-art, machine learning methods (deep neural networks and evolutionary algorithms) on big-data from thousands of individual bacterial (Lapinska et
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nanoparticles, and perform single-molecule biosensing experiments using state-of-the-art microscopy approaches. The project will be supervised by dr. P. Zijlstra (Molecular Plasmonics group) and by Prof. M. Merkx