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to develop correlative technologies to visualize integration targeting by cryoET in situ. You will be managing the project day-to-day, including both design and action of strategies in molecular biology and
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of Perovskite-on-Silicon Tandem Solar Cells. This is a collaborative project between Oxford Materials and Oxford Physics. The goal of the project is to deliver a novel tandem technology with the potential
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of an extension up to 1 year. The overall aim of the project is to enable the development and clinical translation of a new generation of protein-based ultrasound-responsive particles specifically designed
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assemble and function using the Drosophila embryo as a model system. In the laboratory we extensively use advanced live-cell light microscopy to understand the behaviour of these organellles, as well as many
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through our 4-year Masters-level degree course in Molecular and Cellular Biochemistry and by acting as a Tutorial Fellow at Oriel College. You should have a higher degree (DPhil/PhD) and postdoctoral
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year in first instance, with a high likelihood of extension. About you You will hold a relevant PhD/DPhil (or be close to completion), together with relevant experience. You will have a first author
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, Headington, Oxford, OX3 7DQ, and is offered on a full-time basis, fixed-term for 1 year in first instance, with a high likelihood of extension. About you You will hold a relevant PhD/DPhil (or be close to
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commitment to career development and mentoring at all career stages, and all our groups have access to a range of Departmental and University PhD training programmes and share state-of-the art research support
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dynamics in semiconductor nanowires and metal-halide-perovskite semiconductors. The advances made will contribute to our active existing research programme in developing efficient multijunction solar cells
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will focus on the development of new “quantum cutting” perovskite solar cells. The post will involve the design and fabrication of perovskite solar cells via vacuum deposition techniques. It will