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permeability selection in variant membrane chemistries. This work will run in parallel to experimental analysis conducted at the University of Exeter using synthetic vesicles to observe permeability
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personal protection equipment (PPE). Your responsibilities will encompass developing new robotic benchmarking testing setup, hardware and controller of a robotic mechanical impactor, and data acquisition
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to unravel the molecular mechanisms behind these aging-related phenotypes. A willingness to learn and employ biochemical approaches and interact with external collaborators in molecular biology and
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, running fluid codes, undertaking experiments with high-power lasers, developing code for experiment control or feedback, or of supervising undergraduate or graduate students will be an advantage. Candidates
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a strong background and/or interest in experimental quantum optics or atomic physics. Previous experience in the field of ion trapping will be essential. Candidates will be expected to demonstrate a
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photo-responsive synthetic cells containing protein machinery. The project involves the synthesis of synthetic transport systems for amino acids, photochemistry and fabrication of responsive synthetic
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: - electrochemical impedance spectroscopy; • fundamental materials science, including: - Mechanical and microstructural characterisation of ceramics You should have significant experience
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potential to uncover new mechanisms governing the fundamental biological process of gene expression. The planned research, funded by an HFSP Research Grant, is a close collaboration between the Wrobel Lab
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given to candidates wishing to work part-time, minimum 80% FTE on a pro-rata basis). The post is based in the Department of Experimental Psychology, Life and Mind Building in Oxford. You will be part of
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for two years, in the first instance. The posts are based in the Department of Experimental Psychology, Life and Mind Building in Oxford. You will be part of a project that aims to aims to work with