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work. A model is to be developed to estimate the material mass breakdown for various cell designs and cell formats. The model will be validated from teardown analysis of commercial lithium-ion battery
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Biomedical Science working on molecular modeling of proteins and lipids to investigate biomolecular condensates at cell membranes. Project This PhD project investigates how proteins interact and organize
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dynamics to cellular metabolism. The student will receive broad training in cell culture, genome engineering, live-cell imaging, biochemical assays, proteomics, and computational data analysis, and will work
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cell co-culture system with osteoblasts, and assess the performance of antimicrobial cements for infection prevention and tissue integration. The PhD student will also contribute to the development
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mutagenesis, imaging, genomics, and single-cell transcriptomics. The project and research environment will give the dedicated student the opportunity to train as a first-class researcher. PhD project 2: The PhD
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LevelMaster Degree or equivalent Skills/Qualifications Research Field: Medical sciences, Microbiology, Cell and Molecular Biology Applicants must hold a Master's degree or equivalent in Microbiology
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Electron Microscopy (TEM) and HAADF-STEM images. Microscopy data are often degraded by noise and scan distortions, and clean ground truth data are rarely available. This project aims to go beyond standard
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electrochemical cell (LEC). The LEC is currently attracting increasing interest from both academia and industry since it: (i) can deliver bright and easily patterned light emission at low voltage; (ii) can be thin
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for one to two PhD students in analytical chemistry to develop analytical methods for single cell analysis and mass spectrometry imaging using direct infusion mass spectrometry. The PhD candidate will work
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methods for single cell analysis and mass spectrometry imaging using direct infusion mass spectrometry. The PhD candidate will work with and develop custom made techniques coupled to high resolving mass