A Soft Evaporation and Ionization Technique for Mass Spectrometric Analysis and Bio-Imaging of Metal Ions in Plants Based on Metal–Iodide Cluster Ionization

Abstract: Protonation/deprotonation is the well-recognized mass spectrometric mechanism in matrix-assisted laser desorption ionization of organic molecules but not for metal ions with different oxidation states. We describe herein a soft evaporation and ionization technique for metal ions based on iodination/de-iodination in metal–iodide cluster ionization (MICI). It is not only able to determine identities and oxidation states of metal ions but also reveal spatial distributions and isotope ratios in response to physiol… Show more

“…25 Because of the complete atomization of metal ions in high-temperature plasma torch up to 8000 K, oxidation states and anions are not available with ICP MS. Through the formation of complexes or metal-iodide clusters, 26 identification of metal ions has been achieved with matrix-assisted laser desorption ionization MS (MALDI−MS) that can reveal not only identities but also oxidization states. In order to further monitor the dynamics of metal ion-coupled electron transfer, redox/photo active chelators were proposed in this work and applied to wide-field imaging of metal ions on material surfaces.…”

Imaging the Dynamics of Metal Ion-Coupled Electron Transfer on Material Surfaces with Redox/Photo Active Chelators

“…25 Because of the complete atomization of metal ions in high-temperature plasma torch up to 8000 K, oxidation states and anions are not available with ICP MS. Through the formation of complexes or metal-iodide clusters, 26 identification of metal ions has been achieved with matrix-assisted laser desorption ionization MS (MALDI−MS) that can reveal not only identities but also oxidization states. In order to further monitor the dynamics of metal ion-coupled electron transfer, redox/photo active chelators were proposed in this work and applied to wide-field imaging of metal ions on material surfaces.…”

Imaging the Dynamics of Metal Ion-Coupled Electron Transfer on Material Surfaces with Redox/Photo Active Chelators