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Resolving Individual Light Atoms

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OAK RIDGE, Tenn., March 29, 2010 – Using the latest in aberration-corrected electron microscopy, researchers at the US Department of Energy’s Oak Ridge National Laboratory and their colleagues have obtained the first images that distinguish individual light atoms such as boron, carbon, nitrogen and oxygen. The images were obtained with a Z-contrast scanning transmission electron microscope (STEM). Individual atoms of carbon, boron, nitrogen and oxygen – all of which have low atomic numbers – were resolved on a single-layer boron-nitride sample. Individual boron and nitrogen atoms are clearly...Read full article

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    Published: March 2010
    aberration-corrected electron microscopyAmericasatomic imagingBasic ScienceBiophotonicsboroncarbonchemistryChris OwnDepartment of EnergyEuropeFiltersGeorge CorbinImagingimpuritieslensesMark OxleyMaterial ScienceMatt MurfittMatthew ChisholmMicroscopymolecular structuresnanoscienceNatureNiklas DellbyNion Co.nitrogenOak Ridge National LaboratoryOndrej KrivanekOpticsOxford UniversityoxygenResearch & TechnologySokrates PantelidesSTEMStephen Pennycookstructural defectsTimothy PennycookU.K.Valeria NicolosiVanderbilt UniversityWashingtonZ-contrast scanning transmission electron microscopeZotlan Szilagyi

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