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well as the mechanism involved in its genome-wide protein production control. In addition, it will involve engineering of sRNA production levels to analyse its impact on the (intestinal) lifestyle of B. longum
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mechanics at the atomic scale. In this project, the University of Groningen will develop an array of state-of-the-art machine learning potentials for multi-component alloy systems that are relevant
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” (GGS), a PhD position for the period of 4 years is available in the context of modelling green steel mechanics at the atomic scale. In this project, the University of Groningen will develop an array
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applications in regenerative biomedicine. Understanding the multiscale regulatory feedbacks between genes, proteins, cell behaviours, and tissue-scale mechanics is a major challenge. You will tackle
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the game, its mechanisms and interactions. Within designing and testing the game, a few key things you will work on include: (1) establishing a sense of safety to collaboratively explore and experiment
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and mechanical properties under in-situ pressure and temperature conditions; develop and apply fully-coupled thermo-hydro-mechanical models to simulate mine water flow and heat storage dynamics within
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mechanisms. This new project specifically targets the role of microplastics in the development of lung cancer and is conducted in close collaboration with the lab of Dr Stefan Prekovic (UMC Utrecht
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possibilities in adaptive materials or soft robotics. Imagine interactive hydrogels that self-assemble from a ’’design-less’ state and can get their morphology optimised to perform targeted mechanical operations
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structured data that prevails in governments, humanitarian organizations, enterprises, and healthcare. The anticipated research will focus on developing mechanisms for reliable and responsible AI-powered data
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the developmental stages of human infants. By comprehensively measuring and documenting these developmental stages and the associated inductive biases, we aim to identify key mechanisms that drive rapid learning in