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Field
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) The subject of the PhD Thesis will be studying polarons in real space by noncontact atomic force microscopy (nc-AFM), focusing on their thermally-, field- and light-induced motion. Further, the growth
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resolution analysis, monitoring of chemistry, structure and transformations at the atomic scale of buried interfaces and defects by correlated experimental techniques in both space and time (e.g., correlated
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structures and precise functions drive essential cellular processes. The exciting challenge we now face is: can we build such motors from the bottom up, at the nanoscale? In the ERC-funded project
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well as molecular biology. Your immediate leader is the Head of Department. Duties of the position Use microscopy techniques such as Brillouin, laser confocal and atomic force microscopy to investigate cellular
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approaches including beta/gamma irradiation (Dalton Cumbria Facility, DCF) and advanced electron/X-ray microscopy (e.g., Diamond synchrotron https://www.diamond.ac.uk ). These studies will be combined with
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others previously showed that different types of cellular stress, e.g. oxidative stress or heat shock, elicit recruitment of RBPs into stress granules (SGs) and that SGs and aberrant phase transitions can
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/ Partnerships Partners of the PEPR DIADEM – CINEMA project funding this PhD: IRCER, Institut P’, ILM https://www.pepr-diadem.fr/projet/cinema-2/ Scientific Field and Context The optimization of growth–property
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., directly reduce the amount of primary iron per charge. While relatively simple to implement, this approach inevitably increases the impurity levels and tramp element content of the steel, which can have
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Microscopy (SEM) studies and Atomic Force Microscopy (AFM) investigations. Bibliography: 1) M. Kowalczyk et al. Optical Materials Express 6, 2273-2282 (2016). 2) R.-N. Verrone et al. ACS Applied Nano Materials
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