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overview
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My research is focused on the study of the crystalline structure of materials and their physical properties through transmission electron microscopy (TEM) and electron diffraction. Physical properties (magnetic, optical, electric and mechanical properties) are measured in situ TEM, in which individual nanostructures are exposed to external stimuli and recorded in real time. Electron microscopy methods include off-axis electron holography, high resolution transmission electron microscopy, aberration-corrected TEM and STEM, and electron diffraction under different modes: SAED, Scanning NBD and Crystal orientation mapping using precession electron diffraction. My work covers both, theory and experimental aspects of the crystalline structure/physical property relationships based on the electron-matter phenomena.
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Academic Article
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Imaging interactions of metal oxide nanoparticles with macrophage cells by ultra-high resolution scanning electron microscopy techniques.
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Academic Article
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Calibration for medium resolution off-axis electron holography using a flexible dual-lens imaging system in a JEOL ARM 200F microscope.
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Concept
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Microscopy, Electron, Scanning
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Concept
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Microscopy, Electron, Scanning Transmission
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Concept
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Microscopy, Atomic Force
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Concept
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Microscopy, Electron, Transmission
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Academic Article
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Electrical and optical properties of C46H22N8O4KM (M=Co, Fe, Pb) molecular-material thin films prepared by the vacuum thermal evaporation technique.
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Academic Article
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Scanning transmission electron microscopy methods for the analysis of nanoparticles.
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Academic Article
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Advanced microscopy of star-shaped gold nanoparticles and their adsorption-uptake by macrophages.
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Academic Article
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CuS2-passivated Au-core, Au3Cu-shell nanoparticles analyzed by atomistic-resolution Cs-corrected STEM.
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Academic Article
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Elasticity of MoS2 Sheets by Mechanical Deformation Observed by in Situ Electron Microscopy.
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