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electron ground states and multiwell energy landscapes using scanning probe microscopy techniques beyond the state of the art. Correlated electron ground states in materials are currently being explored
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( https://www.kcl.ac.uk/research/photonics-nanotechnology ) involves the development and applications of advanced photonic technologies and of novel nanomaterials to address modern challenges in photonic
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disabilities in companies of 50 or more people). Details of Postdoc Position: https://seu.ub.edu/ofertaPublicaCategoriaPublic/listPublicacionsAmbCategoria?categoria.id=807642 Website for additional job details
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control in neuronal synapses You will be working with primary neuron cultures, rodent in vivo models, and patient brain biopsies You will use advanced microscopy for super-resolution and live imaging
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the nanoimprinting process using the local expertise and obtain high-quality meta surfaces; use characterization involving at least structural (XRD, electron microscopy), optical (UV-Vis, ellipsometry) and
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the structural, magnetic, and electronic properties of these materials using a range of techniques, as a complement to existing expertise. Under the direction of the Principal Investigators working
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Researcher (R1) Positions Postdoc Positions Country Spain Application Deadline 26 Oct 2025 - 23:59 (Europe/Madrid) Type of Contract Temporary Job Status Full-time Hours Per Week 37,5 Offer Starting Date 1 Jan
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maintains shared instrumentation for scanning electron microscopy (SEM), scanning probe / atomic force microscopy, optical microscopy / metrology, optical spectroscopy, elemental analysis, digital fabrication
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biology (X-ray crystallography, electron microscopy), biochemistry, biophysics or molecular biology. Proven ability to develop and execute on complex structural biology projects. Ability to collect and
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this postdoctoral position, you will apply advanced electron microscopy techniques, including STEM and FIB, to investigate the structure and behavior of catalytic nanomaterials critical for green hydrogen and energy