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Department of Natural Sciences

fb05_profil_do.jpg (DE)

Xuan Tung Do

Wissenschaftlicher Mitarbeiter, Doktorand, M.Sc.


Xuan Tung Do, Xuan Tung Do, Xuan Tung Do

Research fields

  • Charakterisierung von Biopolymeren, speziell Lignin
  • Methoden: SEC, HPLC, Chemometrie




K 224


Heisenbergstraße 16

53359, Rheinbach


+49 2241 865 9706


Betreuung der Praktika



Burger, R., Lindner, S., Rumpf, J., Do, X. T., Diehl, B. W., Rehahn, M., ... & Schulze, M. (2022). Benchtop versus high field NMR: Comparable performance found for the molecular weight determination of lignin. Journal of Pharmaceutical and Biomedical Analysis, 114649,

Lindner, S., Burger, R., Rutledge, D. N., Do, X. T., Rumpf, J., Diehl, B. W., ... & Monakhova, Y. B. (2022). Is the Calibration Transfer of Multivariate Calibration Models between High-and Low-Field NMR Instruments Possible? A Case Study of Lignin Molecular Weight. Analytical Chemistry94(9), 3997-4004,


Burger, R., Rumpf, J., Do, X. T., Monakhova, Y. B., Diehl, B. W., Rehahn, M., & Schulze, M. (2021). Is NMR Combined with Multivariate Regression Applicable for the Molecular Weight Determination of Randomly Cross-Linked Polymers Such as Lignin?. ACS omega6(44), 29516-29524,

Rumpf, J., Do, X. T., Burger, R., Monakhova, Y., & Schulze, M. (2021). Types of lignin, properties, and structural characterization techniques. In Lignin-Based Materials for Biomedical Applications (pp. 105-158). Elsevier,


Bergs, M., Do, X. T., Rumpf, J., Kusch, P., Monakhova, Y., Konow, C., ... & Schulze, M. (2020). Comparing chemical composition and lignin structure of Miscanthus x giganteus and Miscanthus nagara harvested in autumn and spring and separated into stems and leaves. RSC Advances10(18), 10740-10751,

Rumpf, J., Do, X. T., Burger, R., Monakhova, Y. B., & Schulze, M. (2020). Extraction of high-purity lignins via catalyst-free organosolv pulping from low-input crops. Biomacromolecules21(5), 1929-1942,


Alzagameem, A., Bergs, M., Do, X. T., Klein, S. E., Rumpf, J., Larkins, M., ... & Schulze, M. (2019). Low-input crops as lignocellulosic feedstock for second-generation biorefineries and the potential of chemometrics in biomass quality control. Applied Sciences9(11), 2252,

Alzagameem, A., Klein, S. E., Bergs, M., Do, X. T., Korte, I., Dohlen, S., ... & Schulze, M. (2019). Antimicrobial activity of lignin and lignin-derived cellulose and chitosan composites against selected pathogenic and spoilage microorganisms. Polymers11(4), 670,

Bergs, M., Völkering, G., Kraska, T., Pude, R., Do, X. T., Kusch, P., ... & Schulze, M. (2019). Miscanthus x giganteus stem versus leaf-derived lignins differing in monolignol ratio and linkage. International journal of molecular sciences20(5), 1200,

Havelt, T., Brettschneider, S., Do, X. T., Korte, I., Kreyenschmidt, J., & Schmitz, M. (2019). Sustainable Extraction and Characterisation of Bioactive Compounds from Horse Chestnut Seed Coats for the Development of Bio-Based Additives. Resources8(2), 114,


Monakhova, Y. B., Diehl, B. W., Do, X. T., Schulze, M., & Witzleben, S. (2018). Novel method for the determination of average molecular weight of natural polymers based on 2D DOSY NMR and chemometrics: Example of heparin. Journal of pharmaceutical and biomedical analysis149, 128-132,