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Alzheimer’s, Parkinson’s, motor neuron disease, and related disorders. This project aims to understand the molecular mechanisms governing ESCRT dependent aggregate clearance versus extracellular vesicle (EV
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. Unique experimental toolkit: This project is grounded in a strong cross-institutional collaboration, providing training across computational biology, structural biochemistry, and chemical biology. You will
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absorption, to uncover the detailed mechanism of PMMs. This understanding will guide the rational design of improved derivatives. The project will focus on a series of unsymmetrical PMM derivatives containing
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Research Studentship in Engineering 3.5-year D.Phil. studentship Project: Electronic-free Mechanical Oscillators for Fast Locomotion in Soft Robots Supervisors: Prof Antonio Elia Forte Soft robots
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counterfactual reasoning frameworks that uncover latent mechanisms and enable principled hypothesis testing. Our goal is to advance the theory of representation learning and causal inference in high-dimensional
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- inductively coupled plasma-mass spectrometry (SC-ICP-MS) will be used to track biouptake as affected by temperature. Proteomic analysis will be used examine mechanisms of NPP toxicity towards phytoplankton
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matrix functions. These computational problems are central to many scientific and engineering applications, including quantum mechanics, materials science, and weather/climate modelling. Numerical methods
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flows, and to have developed skills in experimental fluid mechanics, statistics, data processing, machine learning, and mathematical modelling. Supervisors: Dr Kostas Steiros Duration: 3.5 years. Funding
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conditions. Polymer nanocomposites have shown great promise for sensing and actuation, but current drawbacks include limited mechanical robustness, environmental stability and sensitivity. This project aims
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the above ‘Apply’ button. Under Campus, please select ‘Loughborough’ and select the Programme “Mechanical and Manufacturing Engineering”. Applications must include a CENTA studentship allocation form , a