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lead the development and application of advanced microscopy techniques, microfluidic approaches, and single-cell analysis methods to investigate quiescence at individual cell and population levels. Where
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their structural and optical characterization by using atomic force microscopy (AFM), scanning electron microscopy (SEM), x-ray diffraction (XRD), and photoluminescence spectroscopy (PL). The research will be
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project of studying nanoplastic generation and release via nanoscale abrasive wear using advanced atomic force microscopy (AFM) tools. This work will be supported through the NSF CAREER award. The project
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Department is developing and applying electron microscopy methodologies for nanoscale and atomic-resolution characterization of soft functional materials and their interfaces using a synergy of materials
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CORE A*/A conference paper. Ensuring the safety and longevity of nuclear reactors requires structural materials that can maintain integrity under extreme thermal, mechanical, and irradiation environments
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liquid phases have been predicted. It can be realized using atoms with two valence electrons, such as ytterbium or strontium. To investigate such SU(N) physics, our group has developed a quantum-gas
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microscopy, to investigate how to interfere with fundamental mechanisms in the regulation of cancer metabolism. Available resources at the department include a mouse facility, high-end FACS, IT and microscopy
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entering and working in Denmark here . Aarhus University also offers a Junior Researcher Development Programme targeted at career development for postdocs at AU. You can read more about it here
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entering and working in Denmark here . Aarhus University also offers a Junior Researcher Development Programme targeted at career development for postdocs at AU. You can read more about it here
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mechanical characterization of biological samples using atomic force microscopy. They must also have: • The ability to work in a multidisciplinary environment (with biologists, biomechanicians, and physical