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MSE Seminar: Dr. Alexandre Foucher, MIT Advanced in situ (S)TEM characterization techniques to guide the rational design of nanomaterials Abstract: The rational design of functional nanomaterials depends on our understanding and control of their atomic structure. However, dynamic restructuring effects of these nanomaterials in realistic conditions are not always well understood. For instance, changes in composition, valence state, or morphology can greatly impact the electronic configuration of atoms, ultimately modifying the properties of the sample. Thus, it is necessary to develop advanced in situ characterization techniques to understand nanosystems and guide their design by correlating their atomic structure with their properties. First, I will show how gas-heating in situ STEM imaging and electron energy loss spectroscopy (EELS) can help the understanding of innovative bimetallic nanocatalysts (Au-Pd, Co-Pt, Cu-Pt nanoparticles) in realistic conditions. I will underscore how in situ STEM and EELS can show compositional changes, diffusion, kinetics, oxidation mechanisms and phase transformations that can impact the properties of nanocatalysts. I will also describe how in situ biasing STEM is a powerful approach to understand structural changes in 2D materials and thin films used in electronic devices. I will then highlight how STEM-EELS can be combined with other characterization methods, such as electron pair-distribution function (ePDF) analysis or X-ray absorption spectroscopy (XAS), to get a comprehensive understanding of nanomaterials. Finally, I will close the presentation by describing future research opportunities using advanced transmission Bio: Dr. Alexandre Foucher received a B.S. in Mechanical Engineering at Arts et Métiers This Event is For: Graduate • Undergraduate • Faculty
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