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features turn bioinspired catechol-based materials unique for their use in health and environment applications. The position will be focused on leading the research line focused on the development
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. These excellent features turn bioinspired catechol-based materials unique for their use in health and environment applications. The position will be focused on leading the research line focused on the development
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Nanophysics group has an intense activity on the use of atomic force microscopy techniques to probe and map functionalities at the nanoscale, with a particular emphasis on piezoresponse force microscopy (PFM
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one of the above research areas. Funded by the European Union. Share this opening! Use the following URL: https://jobs.icfo.eu/?detail=775
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that are able to operate a step beyond the commercial state of the art. The successful candidate will be responsible for studying how to apply optical techniques to analyse and recover the information
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deep shotgun sequencing data to profile the microbiome at the taxonomic and functional levels and applying statistical analyses to large datasets to identify (ideally, genetic) factors affecting
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of the SU(N) Fermi-Hubbard model and its low-temperature phases at the microscopic level. Share this opening! Use the following URL: https://jobs.icfo.eu/?detail=1003
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with up to several thousands of atoms. TranSIESTA is an extension of SIESTA that enables the study of electronic transport phenomena in nanoscale devices. The use of shared research infrastructures in
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optogenetics and calcium imaging in ex vivo slices of the mouse anterolateral frontal cortex. Share this opening! Use the following URL: https://jobs.icfo.eu/?detail=970
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atoms. The experiment aims to study for the first time fundamental light-matter interaction processes at the single-particle level. Share this opening! Use the following URL: https://jobs.icfo.eu/?detail