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: whether electron transfer proceeds via diffusible intermediates or through direct, cell-to-cell electron transfer (DIET) is still under active debate. This project aims to resolve the mechanism of archaeal
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) molecule fluorescence and other techniques, such as smFRET. Structural biology using electron microscopy, such as cryogenic electron microscopy (cryo-EM) and tomography (cryo-ET). The postdoc will be central
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focus on in situ and operando X-ray scattering studies of the formation, growth and catalytic properties of complex nanocrystals. The project also involves frequent use of advanced electron microscopy
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regulatory RNAs. Characterization of RNA devices by structural biology methods such as cryo-electron microscopy (cryo-EM) and tomography (cryo-ET). Testing and screening of RNA devices by functional assays in
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regulatory RNAs. Characterization of RNA devices by structural biology methods such as cryo-electron microscopy (cryo-EM) and tomography (cryo-ET). Testing and screening of RNA devices by functional assays in
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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
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microscopy, optical interferometry, vacuum technology, finite element method simulations will be involved. Applicants should hold a PhD in Physics, Nano-science, Engineering or similar, experience with optics