Schwander, L., Ligterink, N.F.W., Kipfer, K.A., Lukmanov, R.A., Grimaudo, V., Tulej, M., De Koning, C.P., Keresztes Schmidt, P., Gruchola, S.N., Boeren, N.J. and Ehrenfreund, P., Correlation network analysis for amino acid identification in soil samples with the ORIGIN space-prototype instrument. Frontiers in Astronomy and Space Sciences, p.106. (2022), Paper
Gruchola, S., de Koning, C.P., Wiesendanger, R., Schmidt, P.K., Riedo, A., Grimaudo, V., Lukmanov, R.A., Ligterink, N.F., Tulej, M. and Wurz, P., 2022. Improved limit of detection of a high-resolution fs-LIMS instrument through mass-selective beam blanking. International Journal of Mass Spectrometry, 474, p.116803. Paper
Kipfer, K.A., Ligterink, N.F.W., Bouwman, J., Schwander, L., Grimaudo, V., de Koning, C.P., Boeren, N.J., Schmidt, P.K., Lukmanov, R., Tulej, M. and Wurz, P., 2022. Toward Detecting Polycyclic Aromatic Hydrocarbons on Planetary Objects with ORIGIN. The planetary science journal, 3(2), p.43. Paper
Lukmanov R. A., de Koning C., Schmidt P. K., Wacey D., Ligterink N. F. W., Gruchola S., Grimaudo V., Neubeck A., Riedo A., Tulej M. and others. (2022) High Mass Resolution fs-LIMS Imaging and Manifold Learning Reveal Insight Into Chemical Diversity of the 1.88 Ga Gunflint Chert. Frontiers in Space Technologies, 3. 15p. PDF / Paper
Lukmanov, R.A., Tulej, M., Wiesendanger, R., Riedo, A., Grimaudo, V., Ligterink, N.F., de Koning, C., Neubeck, A., Wacey, D. and Wurz, P., 2022. Multiwavelength Ablation/Ionization and Mass Spectrometric Analysis of 1.88 Ga Gunflint Chert. Astrobiology, 22(4), pp.369-386. PDF / Paper
Lukmanov R.A., Tulej M., W. Ligterink N. F., De Koning C., Riedo A., Grimaudo V., Neubeck A., Wacey D., and Peter Wurz, “Chemical identification of microfossils from the 1.88 Ga Gunflint chert. Towards empirical biosignatures using LIMS” Chemometrics (2021) PDF
Lukmanov R.A., Riedo A., Wacey D., Ligterink N. F. W., Grimaudo V., Tulej M., De Koning C., Neubeck A., and Peter Wurz, “On topological analysis of fs-LIMS data. Implications for in situ planetary mass spectrometry”, Frontiers in Machine Learning and Artificial Intelligence (2021) PDF
Lukmanov R. A., Tulej M., and Peter Wurz, “Aufspüren extraterrestrischer Lebenszeichen im Sonnensystem mittels lasergestützter Massenspektrometrie”, VetsuisseNews, (2021) PDF
Ligterink, N.F., Grimaudo, V., Moreno-García, P., Lukmanov, R.A., Tulej, M., Leya, I., Lindner, R., Wurz, P., Cockell, C.S., Ehrenfreund, P. and Riedo, A., 2020. ORIGIN: a novel and compact Laser Desorption–Mass Spectrometry system for sensitive in situ detection of amino acids on extraterrestrial surfaces. Scientific reports, 10(1), pp.1-10. PDF / Paper
Wiesendanger, R., Grimaudo, V., Tulej, M., Riedo, A., Lukmanov, R.A., Ligterink, N., Fausch, R., Shea, H. and Wurz, P., 2019. The LMS-GT instrument–a new perspective for quantification with the LIMS-TOF measurement technique. Journal of analytical atomic spectrometry, 34(10), pp.2061-2073. Paper
Grimaudo, V., Tulej, M., Riedo, A., Lukmanov, R.A., Ligterink, N.F., de Koning, C. and Wurz, P., 2020. UV post-ionization laser ablation ionization mass spectrometry for improved nm-depth profiling resolution on Cr/Ni reference standard. Rapid communications in mass spectrometry, 34(14), p.e8803. Paper
Riedo, A., Lukmanov, R.A., Grimaudo, V., de Koning, C., Ligterink, N.F., Tulej, M. and Wurz, P., 2021. Improved plasma stoichiometry recorded by LIMS by using a double-pulse femtosecond laser ablation ion source. Rapid Communications in Mass Spectrometry, p.e9094. Paper
Tulej, M., Neubeck, A., Riedo, A., Lukmanov, R.A., Grimaudo, V., Ligterink, N.F., Ivarsson, M., Bach, W., de Koning, C. and Wurz, P., 2020. Isotope abundance ratio measurements using femtosecond laser ablation ionization mass spectrometry. Journal of Mass Spectrometry, 55(12), p.e4660. Paper
Cedeño López, A., Grimaudo, V., Riedo, A., Tulej, M., Wiesendanger, R., Lukmanov, R.A., Moreno-Garcia, P., Lortscher, E., Wurz, P. and Broekmann, P.,2019 Three-Dimensional Composition Analysis of SnAg Solder Bumps Using Ultraviolet Femtosecond Laser Ablation Ionization Mass Spectrometry. Analytical chemistry, 92(1), pp.1355-1362. Paper
Tulej, M., Lukmanov, R.A., Grimaudo, V., Riedo, A., de Koning, C., Ligterink, N.F., Neubeck, A., Ivarsson, M., McMahon, S. and Wurz, P., 2020. Determination of the microscopic mineralogy of inclusion in an amygdaloidal pillow basalt by fs-LIMS. Journal of Analytical Atomic Spectrometry. Paper
Wiesendanger, R., Tulej, M., Grimaudo, V., Cedeño-López, A., Lukmanov, R.A., Riedo, A. and Wurz, P., 2019. A method for improvement of mass resolution and isotope accuracy for laser ablation time‐of‐flight mass spectrometers Journal of chemometrics, 33(1), p.e3081. Paper
López, A.C., Grimaudo, V., Riedo, A., Tulej, M., Wiesendanger, R., Lukmanov, R.A., Moreno-García, P., Lörtscher, E., Wurz, P. and Broekmann, P., 2021. Characterization of femtosecond laser ablation processes on as-deposited SnAg solder alloy using laser ablation ionization mass spectrometry. Spectrochimica Acta Part B: Atomic Spectroscopy, 180, p.106145. Paper
Tulej, M., Ligterink, N.F., de Koning, C., Grimaudo, V., Lukmanov, R.A., Keresztes Schmidt, P., Riedo, A. and Wurz, P., 2021. Current Progress in Femtosecond Laser Ablation/Ionisation Time-of-Flight Mass Spectrometry. Applied Sciences, 11(6), p.2562. Paper
Ligterink, N., Riedo, A., Tulej, M., Lukmanov, R.A., Grimaudo, V., Koning, C. de, Wurz, P., Briois, C., Carrasco, N., Arevalo, F. R., & Brinckerhoff, W. (2021). Detecting the elemental and molecular signatures of life: Laser-based mass spectrometry technologies. Bulletin of the AAS, 53(4). https://doi.org/10.3847/25c2cfeb.782ec4d0 Paper
de Koning, C.P., Gruchola, S., Riedo, A., Wiesendanger, R., Grimaudo, V., Lukmanov, R.A., Ligterink, N.F., Tulej, M. and Wurz, P., 2021. Quantitative elemental analysis with the LMS-GT; a next-generation LIMS-TOF instrument. International journal of mass spectrometry, 470, p.116662. Paper
Wurz, P., Tulej, M., Riedo, A., Grimaudo, V., Lukmanov, R.A. and Thomas, N., 2021, March. Investigation of the Surface Composition by Laser Ablation/Ionization Mass Spectrometry. In 2021 IEEE Aerospace Conference (50100) (pp. 1-15). IEEE. Paper
Riedo, A., de Koning, C., Riedo, V., Ligterink, N.F.W., Keresztes Schmidt, P., Lukmanov, R., Schwander, L., Tulej, M. and Wurz, P., 2021. Detection of biomarkers using compact and sensitive laser ablation/desorption ionization mass spectrometry. Anal. Chem, 87, pp.2037-2041. PDF
Riedo, A., Riedo, V., Aerts, J.W., Lukmanov, R.A., Tulej, M., Broekmann, P., Lindner, R., Wurz, P. and Ehrenfreund, P., 2021. Laser Ablation Ionization Mass Spectrometry: A space prototype system for in situ Sulphur isotope fractionation analysis on planetary surfaces. Frontiers in astronomy and space sciences, 8. PDF
List of attended conferences, projects and grants
European cooperation in science and technology (COST) Action Grant – 400 EUR, 2018.
Moscow International Solar System Symposium, 11-15 October 2018, Moscow, Russia.
The European Planetary Science Congress, 19 to 24 September 2018, Berlin, Germany
“The chemical characterization of 1.88Ga microfossils using LIMS technology,” invited talk at the Veterinary department of University of Bern, 23 October 2018, Bern, Switzerland.
Joint congress of The European Planetary Science (EPSC) and Division for Planetary Sciences (DPS) of the American Astronomical Society (ASS), 19 to 24 September 2019, Geneva
Goldschmidt international conference on geochemistry, 18 to 23 August 2019, Barcelona
The European Geosciences Union (EGU) General Assembly 2020, 25 to 30 April 2020, (online) Vienna.
STEPS (Students and Researchers Exchange Program in Sciences) (Japan-Russia student exchange program) grant for a research project at University of Tokyo.