Litcius/Paper detail

Sensitivity enhancement using chemically reactive gas cluster ion beams in secondary ion mass spectrometry (SIMS)

Matija Lagator, Irma Berrueta Razo, Thomas C.A. Royle, Nicholas P. Lockyer

2022Surface and Interface Analysis21 citationsDOIOpen Access PDF

Abstract

We report for the first time on significant molecular secondary ion yield increases by modifying the chemistry of a water cluster primary ion beam. This was demonstrated using 70‐keV ion beams of 0.15 eV/amu. For the neutral drug Bezafibrate, secondary ion yield enhancements ×5–10 were observed when replacing the Ar carrier gas in a water gas cluster ion beam (GCIB) source with a mixture containing 12% CO 2 and 2% O 2 in Ar. For the cationic drug Ranitidine, the ion yield enhancements using the CO 2 ‐containing carrier gas were up to ×20–50 in positive mode and ×2–4 in negative mode. The extent of molecular fragmentation was very similar from both cluster beams. We conclude that additional chemically reactive species are present in the impact zone using the (H 2 O/CO 2 ) n projectile, which promote the formation of secondary ions of both polarity through projectile impact‐induced chemical reactions. This methodology can be applied to further extend the capabilities of high‐resolution 3‐dimensional mass spectral imaging using reactive GCIB‐SIMS.

Topics & Concepts

ChemistryIonSecondary ion mass spectrometryAnalytical Chemistry (journal)Mass spectrumMass spectrometryFragmentation (computing)Polyatomic ionYield (engineering)Ion beam depositionStatic secondary-ion mass spectrometryIon beamCluster (spacecraft)Materials scienceChromatographyComputer scienceMetallurgyOrganic chemistryOperating systemProgramming languageIon-surface interactions and analysisDiamond and Carbon-based Materials ResearchAnalytical chemistry methods development