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the potential of clinical applications in cancer immunotherapy. We are seeking highly motivated individuals who have obtained a PhD degree in immunology, cancer biology, or a related field. The successful
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. Jennifer McManus, examining protein phase transitions associated with biomolecular condensation in-vitro using a range of scattering and fluorescence microscopy techniques. The overall aim is to understand
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and imaging capabilities, and on applying THz (emission) microscopy to study 2D materials and 2D heterostructures. The microscope will use femtosecond lasers to generate and detect terahertz pulses
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, bioinformatics, quantitative and structural proteomics, as well as structural biology (cryo‑electron microscopy), to determine the interactions between intact bacteria, bacterial virulence factors, and human
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, fluorescence and electron microscopy. Cell analysis – PRC, western blot, flow cytometry, advanced microscopy. References Glycans and extracellular vesicles: https://www.sciencedirect.com/science/article/pii
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etc) Advanced characterization of steels, for example transmission electron microscopy and electron backscatter diffraction (EBSD). Mechanical property testing Materials modelling, with experience
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twin of sperm motility, and utilize it to develop a separation method. Your tasks will include: Performing computer simulations and matching them to experimental data Very close collaboration with
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physicochemistry and studies of the morphology and structure of thin organic layers (AFM, electron microscopy); • Knowledge and experience in the fabrication and analysis of organic light-emitting diodes (OLEDs
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production via at least one of the following techniques: magnetron sputtering, electrodeposition, wet chemical methods. The catalysts will be characterized via XPS, XRD, and electron microscopy and we will
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on two types of phenomena: (i) Charge Density Wave (CDW) order in magnetic, lanthanide-based MOFs and (ii) electride-like, quasiatomic electron states that reside in the pores of certain MOFs. The aim