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energy materials—and is equipped with state-of-the-art research facilities. Embedded in a dynamic network of industrial and academic collaborations, SIMaP provides an ideal environment for ambitious
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materials with adapted surface properties for electrosorptive CO2 Capturing structural and physicochemical characterization of carbon materials: application of modern analytical methods e.g. XRD, Raman
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on simulating nanoalloy structures to create a database for materials characterization. The main tasks include running molecular dynamics and Monte Carlo simulations to model nanoalloys under various
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state-of-the-art fabrication and characterization facilities; in a highly multidisciplinary environment at the group and institutional levels. For more details, please visit the group website at: https
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wide range of tasks in the field of magnetic material preparation and characterization. This preferentially includes the independent characterization of the magnetic microstructure through the combined
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microstructural characterization, and opportunities focused on acoustic nondestructive evaluation of existing structures. We apply fracture mechanics and materials science principles to model data, furthering
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The Innovative Electron Microscopy Department develops and applies electron microscopy methodologies for nanoscale and atomic-resolution characterization of functional materials and their interfaces
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The School of Mechanical & Aerospace Engineering (MAE) is a robust, dynamic and multi-disciplinary international research community comprising of world-class scientists and bright students. MAE
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The School of Mechanical & Aerospace Engineering (MAE) is a robust, dynamic and multi-disciplinary international research community comprising of world-class scientists and bright students. MAE
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configuration influence hydrogen production efficiency. The project will combine plasma reactor development, plasma diagnostics, and materials characterization. Techniques such as optical emission spectroscopy