Scientific Reports (Jul 2017)

Image-Based Chemical Structure Determination

  • Johannes Ofner,
  • Florian Brenner,
  • Karin Wieland,
  • Elisabeth Eitenberger,
  • Johannes Kirschner,
  • Christoph Eisenmenger-Sittner,
  • Szilvia Török,
  • Balazs Döme,
  • Thomas Konegger,
  • Anne Kasper-Giebl,
  • Herbert Hutter,
  • Gernot Friedbacher,
  • Bernhard Lendl,
  • Hans Lohninger

DOI
https://doi.org/10.1038/s41598-017-07041-x
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 11

Abstract

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Abstract Chemical imaging is a powerful tool for understanding the chemical composition and nature of heterogeneous samples. Recent developments in elemental, vibrational, and mass-spectrometric chemical imaging with high spatial resolution (50–200 nm) and reasonable timescale (a few hours) are capable of providing complementary chemical information about various samples. However, a single technique is insufficient to provide a comprehensive understanding of chemically complex materials. For bulk samples, the combination of different analytical methods and the application of statistical methods for extracting correlated information across different techniques is a well-established and powerful concept. However, combined multivariate analytics of chemical images obtained via different imaging techniques is still in its infancy, hampered by a lack of analytical methodologies for data fusion and analysis. This study demonstrates the application of multivariate statistics to chemical images taken from the same sample via various methods to assist in chemical structure determination.