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colloidal routes, enabling precise control over size, morphology, composition, and structural complexity. This role offers an unparalleled opportunity to lead the computational core of a cutting-edge
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evolution of cellular structures, with a particular focus on centrioles, centrosomes, cilia, and cytoskeletal organisation. The lab combines cell biology, advanced microscopy, quantitative image analysis
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the structure and behavior of catalytic nanomaterials critical for green hydrogen and energy technologies. The candidate will design and perform real-time in-situ TEM experiments using gas and liquid sample
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temperatures) and different types of frustrated configurations that lead to unique properties at ambient temperature. Among them, exotic magnetic structures such as magnetic spirals, chiral and non-collinear
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electrochemistry, ferroelectricity and magnetism; magneto-ionics in patterned structures and thin films; atomic force microscopy (including magnetic force microscopy, piezo-response force microscopy, Kelvin probe
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innovation.” Mei says, “CIMR aims to reshape the landscape of medical research and education by using its unconventional structure to defy conventional boundaries.” Improving Medical Education CIMR is
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, IFAE is leading the construction of new baffles instrumented with photo sensors around the test masses. IFAE is actively participating in ET, coordinates the EU Horizon INFRA-DEV project for the ET
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humanities, advancing medicine, and fostering interdisciplinary integration,” Tianjin University has established a comprehensive and balanced academic structure. This includes a prominent advantage in
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involving Neuroscience You have proven experience in big data analysis (RNASeq, smallRNASeq, GWAS, proteomics) You have excellent understanding of transcriptomic and proteomic workflows, data structure and
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this position, you will apply advanced electron microscopy techniques, including STEM to investigate the structure and behaviour of catalytic nanomaterials critical for green hydrogen and energy technologies