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Bringing atom probe tomography to transmission electron microscopes

G. Da Costa, Célia Castro, Antoine Normand, Charly Vaudolon, A. S. Zakirov, Juan Macchi, Mohammed Ilhami, Kaveh Edalati, F. Vurpillot, Williams Lefebvre

2024Nature Communications20 citationsDOIOpen Access PDF

Abstract

For the purpose of enhancing the structural insights within the three-dimensional composition fields revealed by atom probe tomography, correlative microscopy approaches, combining (scanning) transmission electron microscopy with atom probe tomography, have emerged and demonstrated their relevance. To push the boundaries further and facilitate a more comprehensive analysis of nanoscale matter by coupling numerous two- or three-dimensional datasets, there is an increasing interest in combining transmission electron microscopy and atom probe tomography into a unified instrument. This study presents the tangible outcome of an instrumental endeavour aimed at integrating atom probe tomography into a commercial transmission electron microscope. The resulting instrument demonstrates the feasibility of combining in situ 3D reconstructions of composition fields with the detailed structural analysis afforded by transmission electron microscopy. This study shows a promising approach for converging these two important nanoscale microscopy techniques.

Topics & Concepts

Electron tomographyAtom probeTransmission electron microscopyMicroscopyScanning transmission electron microscopyScanning confocal electron microscopyNanoscopic scaleTomographyElectron microscopeMaterials scienceEnergy filtered transmission electron microscopyMicroscopeConventional transmission electron microscopeOpticsNanotechnologyPhysicsAdvanced Materials Characterization TechniquesForce Microscopy Techniques and ApplicationsHydrogen embrittlement and corrosion behaviors in metals
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