Litcius/Paper detail

Application of high-spatial-resolution secondary ion mass spectrometry for nanoscale chemical mapping of lithium in an Al-Li alloy

Xu Xu, Chengge Jiao, Kexue Li, Min Hao, Katie L. Moore, Timothy L. Burnett, Xiaorong Zhou

2021Materials Characterization22 citationsDOIOpen Access PDF

Abstract

High-spatial-resolution secondary ion mass spectrometry offers a method for mapping lithium at nanoscale lateral resolution. Practical implementation of this technique offers significant potential for revealing the distribution of Li-containing nanoscale precipitates in Al-Li alloys with exceptional lateral resolution and elemental sensitivity. Here, two state-of-the-art methods are demonstrated on an aluminium-lithium alloy to visualise nanoscale Li-rich phases by mapping the 7Li+ secondary ion. NanoSIMS 50L analysis with a radio frequency O− plasma ion source enabled visualisation of needle-shaped T1 (Al2CuLi) phases as small as 75 nm in width. A compact time-of-flight secondary ion mass spectrometry detector added to a focused ion beam scanning electron microscope facilitated mapping of the T1 phases down to 45 nm in width using a Ga+ ion beam. Correlation with high resolution electron microscopy confirms the identification of T1 precipitates, their sizes and distribution observed during SIMS mapping.

Topics & Concepts

Materials scienceSecondary ion mass spectrometryMass spectrometryNanoscopic scaleLithium (medication)Resolution (logic)Analytical Chemistry (journal)IonScanning electron microscopeIon beamFocused ion beamSecondary electronsStatic secondary-ion mass spectrometryAlloyNanotechnologyChemistryElectronMetallurgyComposite materialChromatographyMedicineOrganic chemistryEndocrinologyComputer scienceArtificial intelligenceQuantum mechanicsPhysicsElectron and X-Ray Spectroscopy TechniquesIon-surface interactions and analysisAdvanced Materials Characterization Techniques