Marianne Glasius

Keywords

Chemical Analysis
Atmospheric Chemistry
Mass Spectrometry
Biofuels
Aerosols

Head of Atmospheric and Analytical Chemistry Group

Associate Professor Marianne Glasius
PhD in Chemistry

Tracing molecular processes - in biofuel formation and the atmosphere

We develop and apply advanced analytical methods to detect molecular tracers of chemical processes, whether these occur during hydrothermal liquefaction of biomass to develop new biofuels or are involved in the formation and growth of atmospheric aerosols.

Our research addresses some of the major issues in society today, namely air pollution, climate change and the development of alternative fuels. We use our analytical expertise to investigate chemical processes from molecular to global scales. The analyses demand a suite of instruments to detect molecules with a wide range of volatility and polarity properties. We develop analyses using gas chromatography coupled to mass spectrometry (GC-MS) with specialized injection methods, and ultrahigh performance liquid chromatography coupled to quadrupole time-of-flight mass spectrometry (UHPLC-qTOF-MS) for analysis of polar compounds to provide information on the exact chemical composition. These analytical methods are also used for the study of other topics such as novel food ingredients.

Our projects are often carried out in national and international collaborations, e.g. when we study aerosols in Greenland and the Amazon, or develop sustainable high-value ingredients and biofuels together with industrial partners.

Recent publications

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Thomsen, D., Thomsen, L. D., Iversen, E. M., Björgvinsdóttir, T. N., Vinther, S. F., Skønager, J. T., Hoffmann, T., Elm, J., Bilde, M. & Glasius, M. (2022). Ozonolysis of α-Pinene and Δ³-Carene Mixtures: Formation of Dimers with Two Precursors. Environmental Science & Technology, 56(23), 16643-16651. https://doi.org/10.1021/acs.est.2c04786

Tiszenkel, L., Pedersen, A. N., Vasudevan-Geetha, V., Hopf, M. C., Glasius, M., Elm, J. & Lee, S. H. (2026). Oxygenated Organosulfates Are an Effective Nucleation Precursor in Mixed Biogenic and Anthropogenic Environments. Geophysical Research Letters, 53(1), Article e2025GL117259. https://doi.org/10.1029/2025GL117259

Glasius, M., Wåhlin, P., Jensen, KA., Schneider, T., Gunnarsen, L. & Palmgren, F. (2008). Outdoor and indoor sources to ultrafine and fine particles in an urban apartment. In Indoor Air 2008 The 11th International Conference on Indoor Air Quality and Climate: available at www.indoorair2008.org

Worton, D. R., Goldstein, A. H., Farmer, D. K., Docherty, K. S., Jimenez, J. L., Gilmann, J. B., Kuster, W. C., de Gouw, J., Williams, B. J., Kreisberg, N. M., Hering, S. V., Bench, G., McKay, M., Kristensen, K., Glasius, M., Surratt, J. D. & Seinfeld, J. H. (2011). Origins and composition of fine atmospheric carbonaceous aerosol in the Sierra Nevada Mountains, California. Atmospheric Chemistry and Physics, 11, 10219-10241. https://doi.org/10.5194/acp-11-10219-2011

Huang, R. J., Cao, J., Chen, Y., Yang, L., Shen, J., You, Q., Wang, K., Lin, C., Xu, W., Gao, B., Li, Y., Chen, Q., Hoffmann, T., O'Dowd, C. D., Bilde, M. & Glasius, M. (2018). Organosulfates in atmospheric aerosol: Synthesis and quantitative analysis of PM2.5 from Xi'an, northwestern China. Atmospheric Measurement Techniques, 11(6), 3447-3456. https://doi.org/10.5194/amt-11-3447-2018

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Revised 08.12.2025

Lise Refstrup Linnebjerg Pedersen