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electron microscopy techniques (D) Experience in communicating with multiple parties in a vibrant and multidisciplinary and multinational environment (E) Experience in working in a highly organised manner (E
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, or a related field. Has evident experience in at least one of the following: electron microscopy and electrochemistry. Has strong motivation for research on electrochemical energy storage and conversion
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, immunofluorescence, biochemical, and molecular approaches (qPCR, Western blot, ELISA, optical and electron microscopy). Collaborate with project partners to evaluate the mechanical and structural properties
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(https://cehs.unl.edu/npod/ ), which offers excellent research support, facilities and a vibrant research environment. NPOD has facilitated the acquisition of $210 million in external research funding
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Structural characterizations: X-ray and electron diffraction, electron microscopy, atomic force microscopy Study of electronic and magnetic properties: SQUID magnetometry, X-ray and angle-resolved
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their stability, drug release kinetics, encapsulation efficiency and electron microscopy imaging. Integrate innovative approaches to enhance the specificity and efficiency of advanced therapeutics, with a
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of optogenetics into the clinics to join the platform 4) for immune-phenotyping of the newly founded Else Kröner Fresenius Center for Optogenetic Therapies (EKFZ: https://ekfz.uni-goettingen.de/ ). The position
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and molecular genetics as well as hands-on experience with cloning, live-cell fluorescence microscopy, image analysis, and sample preparation for sequencing and multi-omics analyses. The main model
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) of the Czech Academy of Science led by Tomáš Neuman . The team investigates atomic-scale optical properties of molecules and low-dimensional materials, particularly in the context of scanning probe microscopy
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biology and single-molecule microscopy techniques (such as EM, TIRF, AFM microscopy) will be a major advantage. Experience with aptamer development, binding assays, confocal microscopy and flow cytometry