Dr. Frank von der Kammer

  

 

 

 

 

Vice Head Department of Environmental Geosciences

☎ +43 1 4277 53380

frank.von.der.kammer@univie.ac.at

⚲ Josef-Holaubek-Platz 2 (UZA II), Room 2B423, 1090 Vienna

Colloids and nanoparticles constitute a large part of the total reactive surface area of the planet. Their role in environmental processes is only partially understood. Frank develops specific experimental and analytical methods to elucidate the transformation, interaction and general behaviour of colloidal/nanoscale particles in the environment. His group uses the acquired knowledge and sophisticated analytical techniques to better understand environmental nanoscale processes. He supports the risk assessment of nanomaterials by improving our understanding of incidental and manufactured nanoparticles in the environment. This includes development of methods for identification and quantification of nanomaterials in food, cosmetics and the environment, as well as the development of regulatory tools on OECD and ISO levels.

Join the Team

If you are interested in joining our team, explore our open positions and learn more about available PhD and postdoc stipends here.

Teaching

To view Frank von der Kammer's teaching activities at the University of Vienna, visit u:find.

Book editions

  • Frimmel, F.H.; v.d. Kammer, F.; Flemming, H.-C. (Eds.): Colloidal Transport in Porous Media. Springer Berlin Heidelberg, 2007, pp. 291

Book chapters

  • Baalousha, M.; Lead, J.R.; v.d. Kammer, F.; Hofmann, Th. (2009): Natural colloids and nanoparticles in aquatic and terrestrial environments. In: Lead, J.; Smith, E. (Eds.): Environmental and human health Impacts of Nanotechnology. Wiley - Blackwell Publishing, pp. 109 - 162
  • v.d. Kammer, F.; Hofmann, Th. (2007): Beispiele für Nutzen und Risiko der Nanotechnologie aus der Sicht der Umweltgeowissenschaften – Was wir wissen und was wir lernen müssen. In: Gazsó, A.; Schiemer, F.; Greßler, S. (Eds.): Nano - Chancen und Risken aktueller Technologien. Springer Wien-New York, 83 - 100
  • Förstner, U.; Flemming, H.-C.; Gust, G.; Jirka, G.; v.d. Kammer, F.; Larsen, O.; Markofsky, M.; Meyer-Reil, L.-A.; Nießner, R.; Westrich,  B.; Worch, E.; Zielke, W. (2007): Sediment- and pollutant-related processes – interdisciplinary approach. In: Westrich, B. & Förstner, U. (Eds.): Sediment Dynamics and Pollutant Mobility in Rivers – Interdisciplinary Approach. Springer Berlin Heidelberg, 15 - 34
  • Siepmann, R.; v.d. Kammer, F.; Calmano, W. (2007): Determination of heavy metal mobility from resuspended sediments using simulated natural experimental conditions. In: Westrich, B. & Förstner, U. (Eds.): Sediment Dynamics and Pollutant Mobility in Rivers – Interdisciplinary Approach. Springer Berlin Heidelberg, 258 - 268
  • Siepmann, R.; v.d. Kammer, F.; Förstner, U. (2007): Transport of colloids in laboratory and field filtration columns. In: Frimmel, F.H.; v.d. Kammer, F.; Flemming, H.-C. (Eds.): Colloidal Transport in Porous Media. Springer Berlin Heidelberg, 2007, 87-115
  • Hassellov, M., v.d. Kammer, F.; Beckett, R. (2006): Characterization of Aquatic Colloids and Macromolecules by Field-Flow Fractionation. In: K.J. Wilkinson; J.R. Lead (Eds.): Environmental Colloids and Particles: Behaviour, Separation and Characterisation. IUPAC Series on Analytical and Physical Chemistry of Environmental Systems, Vol. 10, Wiley & Sons, pp. 224-276
  • Calmano, W.; v.d. Kammer, F.; Schwartz, R. (2005): Characterization of redox conditions in soils and sediments: heavy metals. In: Lens, P.; Grotenhuis, T.; Malina, G.; Tabak, H. (Eds.): Soil and Sediment Remediation. IWA Publishing, pp. 102 – 120
  • Hassellov, M.; v.d. Kammer, F. (2005): Detection Methods for Field-Flow Fractionation, Encyclopedia of Chromatography, 2. Edition, Marcel Dekker, 437-442
  • v.d. Kammer, F. & Jacobs, P. H.  (2003): Dezentrale Regenwasserreinigung an der B75: Problemlösung mit reaktiven Filtersystemen. - In: Wilderer et al. (Eds.): Regenwasserversickerung - eine Möglichkeit dezentraler Regenwasserbewirtschaftung. Berichte aus der Wassergüte- und Abfallwirtschaft, TU München, Vol. 175, pp. 189-203
  • v.d. Kammer, F. (2003): Kolloidanalytik und physiko-chemische Effekte. In: Hammer, J.: Handbuch zur Erkundung des Untergrundes von Deponien und Altlasten – Vol. 9: Quartäre Sedimente als Geologische Barrieren. Springer, Berlin, 377-388
  • v.d. Kammer, F.; Thöming, J.; Förstner, U. (1999): Redox Capacity Concept as a Tool for the Assessment of Long Term Effects in Natural Attenuation/Intrinsic Remediation. In: Schüring, J.; Schulz, H. D.; Fischer, W. R.; Böttcher J. & Duijnisveld, W. H. M. (Eds.): Redox – Fundamentals, Processes and Measuring Techniques. Springer-Verlag Berlin Heidelberg
  • v.d. Kammer, F.: Fraktionierung von Nano-Partikeln mit der Feld-Fluß-Fraktionierung (1999). In: Methoden zur Erkundung, Untersuchung und Bewertung von Sedimentablagerungen und Schwebstoffen in Gewässern. DVWK-Schriftenreihe, Wirtschafts- und Verlagsgesellschaft Gas und Wasser, Bonn 1999
  • Thöming, J.; v.d. Kammer, F.; Beermann, A. (1996): Electrolytic Recovery of Mercury from leached residues. In: F. Beck, Elektrochemie der Elektronenleiter, GDCh Monographie, Bd. 3, 68-69

 Group Members

 Publications

Nowack, B., Boldrin, A., Caballero, A., Hansen, S. F., Gottschalk, F., Heggelund, L., Hennig, M., Mackevica, A., Maes, H., Navratilova, J., Neubauer, N., Peters, R., Rose, J., Schaeffer, A., Scifo, L., van Leeuwen, S., von der Kammer, F., Wohlleben, W., Wyrwoll, A., & Hristozov, D. (2016). Meeting the Needs for Released Nanomaterials Required for Further Testing-The SUN Approach. Environmental Science & Technology, 50(6), 2747-2753. https://doi.org/10.1021/acs.est.5b04472

Schmid, D., Micic Batka, V., Velimirovic, M., von der Kammer, F., & Hofmann, T. (2016). Agar agar improves stability and mobility of milled ZVI used in groundwater remediation. Interfaces Against Pollution- IAP.

Velimirovic, M., Schmid, D., Micic Batka, V., von der Kammer, F., & Hofmann, T. (2016). Assessing the transport of iron oxide nanoparticles in a large-scale 3D model aquifer. Interfaces Against Pollution- IAP.

Micic Batka, V., Schmid, D., Gondikas, A., Velimirovic, M., von der Kammer, F., & Hofmann, T. (2016). Can sodium humate coating on mineral surfaces hinder the deposition of nZVI? DECHEMA Gesellschaft für Chemische Technik und Biotechnologie e.V.

Praetorius, A., Gundlach-Graham, A., Goldberg, E. S., Fabienke, W., Navratilova, J., Gondikas, A., Günther, D., von der Kammer, F., & Hofmann, T. (2016). Single-particle ICP-TOFMS provides elemental ratios on an individual particle level for the identification of cerium oxide nanoparticles in soils. In Wasser 2016: Jahrestagung der Wasserchemischen Gesellschaft (pp. 77-80)