Aufsätze in referierten Fachzeitschriften
- Volikov, A.; Schneider, H.; Tarakina, N.; Marzban, N.; Antonietti, M.; Filonenko, S. (2024): Artificial humic substances as sustainable carriers for manganese: Development of a novel bio-based microfertilizer. Biofuel Research Journal. (1): p. 2013-2024. Online: https://doi.org/10.18331/BRJ2024.11.1.3 1.0
- Hajiahmadi, Z.; Moheb, A.; Mohammadi, M.; Marzban, N.; Scheufele, F. (2024): Surface and mass transfer kinetic and equilibrium modeling of Pb(II) ions adsorption on hydroxyapatite scaffold: Batch and fixed-bed column studies. Separation and Purification Technology. (6 September 2024): p. 127141. Online: https://doi.org/10.1016/j.seppur.2024.127141 1.0
- Marzban, N.; Libra, J.; Rotter, V.; Herrmann, C.; Ro, K.; Filonenko, S.; Hoffmann, T.; Antonietti, M. (2024): Maximizing the value of liquid products and minimizing carbon loss in hydrothermal processing of biomass: an evolution from carbonization to humification. Biochar. : p. 44. Online: https://doi.org/10.1007/s42773-024-00334-1 1.0
- Marzban, N.; Libra, J.; Ro, K.; Moloeznik Paniagua, D.; Rotter, V.; Sturm, B.; Filonenko, S. (2024): Hydrochar stability: understanding the role of moisture, time and temperature in its physiochemical changes. Biochar. : p. 38. Online: https://doi.org/10.1007/s42773-024-00329-y 1.0
- Ischia, G.; Berge, N.; Bae, S.; Marzban, N.; Román, S.; Farru, G.; Wilk, M.; Kulli, B.; Fiori, L. (2024): Advances in Research and Technology of Hydrothermal Carbonization: Achievements and Future Directions. Agronomy. (5): p. 955. Online: https://doi.org/10.3390/agronomy14050955 1.0
- Marzban, N.; Libra, J.; Rotter, V.; Ro, K.; Moloeznik Paniagua, D.; Filonenko, S. (2023): Changes in Selected Organic and Inorganic Compounds in the Hydrothermal Carbonization Process Liquid While in Storage. ACS Omega. (4): p. 4234-4243. Online: https://doi.org/10.1021/acsomega.2c07419 1.0
- Tkachenko, V.; Marzban, N.; Vogl, S.; Filonenko, S.; Antonietti, M. (2023): Chemical Insight into the Base-Tuned Hydrothermal Treatment of Side Stream Biomasses. Sustainable Energy & Fuels. : p. 769-777. Online: https://doi.org/10.1039/D2SE01513G 1.0
- Küchler, J.; Willenbücher, K.; Reiß, E.; Nuß, L.; Conrady, M.; Ramm, P.; Schimpf, U.; Reichl, U.; Szewzyk, U.; Benndorf, D. (2023): Degradation Kinetics of Lignocellulolytic Enzymes in a Biogas Reactor Using Quantitative Mass Spectrometry. Fermentation. (1): p. 67. Online: https://doi.org/10.3390/fermentation9010067 1.0
- Mellmann, J.; Salamat, R.; Kharaghani, A. (2023): Drying behavior of solid digestate and reaction kinetics of ammonium degradation during laboratory-scale drying. Waste Management. (1 January 2024): p. 75-86. Online: https://doi.org/10.1016/j.wasman.2023.11.007 1.0
- Hahn, J.; Westerman, P.; Gerowitt, B.; Heiermann, M. (2023): Mesophilic, anaerobic digestion in a full-scale, commercial biogas reactor kills seeds more efficiently than lab-scale systems. Fermentation. (5): p. 481. Online: https://doi.org/10.3390/fermentation9050481 1.0