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Siketić, Z., Bogdanović Radović, I., Barac, M., Brajković, M. & Siketic, Z. (2023). Chemical imaging of organic materials with MeV SIMS using a continuous collimated ion beam [Data set]. doi:10.5281/zenodo.7598521
Siketić, Zdravko, et al. Chemical imaging of organic materials with MeV SIMS using a continuous collimated ion beam. Institut Ruđer Bošković, 2023. 19 Nov 2024. doi:10.5281/zenodo.7598521
Siketić, Zdravko, Ivančica Bogdanović Radović, Marko Barac, Marko Brajković, and Zdravko Siketic. 2023. Chemical imaging of organic materials with MeV SIMS using a continuous collimated ion beam. Institut Ruđer Bošković. doi:10.5281/zenodo.7598521
Siketić, Z., et al. 2023. Chemical imaging of organic materials with MeV SIMS using a continuous collimated ion beam. Institut Ruđer Bošković. [Online]. [Accessed 19 November 2024]. Available from: https://doi.org/10.5281/zenodo.7598521
Siketić Z, Bogdanović Radović I, Barac M, Brajković M, Siketic Z. Chemical imaging of organic materials with MeV SIMS using a continuous collimated ion beam. [Internet]. Institut Ruđer Bošković: Zagreb/Bijenicka cesta 54, HR; 2023, [cited 2024 November 19] Available from: https://doi.org/10.5281/zenodo.7598521
Z. Siketić, I. Bogdanović Radović, M. Barac, M. Brajković and Z. Siketic, Chemical imaging of organic materials with MeV SIMS using a continuous collimated ion beam, Institut Ruđer Bošković, 2023. Accessed on: Nov 19, 2024. Available: https://doi.org/10.5281/zenodo.7598521
Scientific / art field, discipline and subdiscipline
NATURAL SCIENCES Physics Nuclear Physics
Abstract (english)
MeV SIMS is a type of secondary ion mass spectrometry technique (SIMS) where molecules are desorbed from the sample surface with ions of MeV energies. In this work, we present a novel system for molecular imaging of organic materials using a continuous analytical beam and a start trigger for timing based on the detection of secondary electrons. The sample is imaged by the collimated primary ion beam and scanning of the target with a lateral resolution of ~ 20 µm. The mass of the analysed molecules is determined with a reflectron type time-of-flight (TOF) analyser, where the START signal for the TOF measurement is generated by the secondary electrons emitted from the thin carbon foil (~ 5 nm) placed over the beam collimator. With this new configuration of the MeV SIMS setup, a primary ion beam with the highest possible electronic stopping can be used (i.e., highest secondary molecular yield), and samples of any thickness can be analysed. Since the electrons are collected from the thin foil rather than from the sample surface, the detection efficiency of secondary electrons is always the same for any type of analysed material. Due to the ability to scan the samples by piezo stage, samples of a few cm in surface size can be imaged. The imaging capabilities of MeV SIMS are demonstrated on crossing ink lines deposited on the paper, a thin section of a mouse brain and on a fingerprint deposited on a thick Si wafer to show the potential application of the presented technique for analytical purposes in biology and forensics science.
Number: 824096 Title (english): Research And Development with Ion Beams – Advancing Technology in Europe Acronym: RADIATE Jurisdiction: eu Funding stream: H2020