Publications
Showing entries 141 - 160 out of 213
2021
Laughton, S., Laycock, A., Bland, G., von der Kammer, F., Hofmann, T., Casman, E. A., & Lowry, G. (2021). Methanol-based extraction protocol for insoluble and moderately water-soluble nanoparticles in plants to enable characterization by single particle ICP-MS. Analytical and Bioanalytical Chemistry, 413(2), 299-314. https://doi.org/10.1007/s00216-020-03014-8
Häusler, H., Kovacs, G., Wild, E. M., Steier, P., & Heil, B. (2021). The Osli Formation – a Holocene lithostratigraphic unit in the Danube/Kisalföld Basin, eastern Austria and northwestern Hungary. Austrian Journal of Earth Sciences, 114(1), 87-97. https://doi.org/10.17738/ajes.2021.0005
Schüürman, J., Micic Batka, V., von der Kammer, F., & Hofmann, T. (2021). Nanoparticle inventory in a sediment core from the Iron Gate I reservoir. In I. Liska, F. Wagner, M. Sengl, K. Deutsch, J. Slobodnik, & M. Paunovic (Eds.), Joint Danube Survey 4 Scientific Report: A shared analysis of the Danube River (Vol. 4, pp. 501-510). ICPDR - International Commission for the Protection of the Danube River.
Viehmann, S., Hohl, S. V., Tepe, N., Van Kranendonk, M., Reitner, J., Hofmann, T., Koeberl, C., & Meister, P. (2021). Trace metals and Nd isotopes in 3.35 Ga old stromatolites of the Strelley Pool Formation (Australia) unravel the genesis of carbonates and chert. In EGU General Assembly 2021 Article EGU21-1984
2020
Schiedung, M., Bellè, S.-L., Sigmund, G., Kalbitz, K., & Abiven, S. (2020). Vertical mobility of pyrogenic organic matter in soils: a column experiment. Biogeosciences, 17(24), 6457-6474. https://doi.org/10.5194/bg-17-6457-2020
Gogos, A., Wielinski, J., Voegelin, A., Kammer, F. V. D., & Kaegi, R. (2020). Quantification of anthropogenic and geogenic Ce in sewage sludge based on Ce oxidation state and rare earth element patterns. Water research X, 9, Article 100059. https://doi.org/10.1016/j.wroa.2020.100059
Baune, M., Kang, K., Schenkeveld, W. D. C., Kraemer, S. M., Hayen, H., & Weber, G. (2020). Importance of oxidation products in coumarin-mediated Fe(hydr)oxide mineral dissolution. Biometals, 33, 305-321. https://doi.org/10.1007/s10534-020-00248-y
Reyes, C., Hodgskiss, L., Kerou, M., Pribasnig, T., Abby, S., Bayer, B., Krämer, S., & Schleper, C. (2020). Genome wide transcriptomic analysis of the soil ammonia oxidizing archaeon Nitrososphaera viennensis upon exposure to copper limitation. The ISME Journal: multidisciplinary journal of microbial ecology, 14(11), 2659-2674. https://doi.org/10.1038/s41396-020-0715-2
Sigmund, G., Gharasoo, M., Hüffer, T., & Hofmann, T. (2020). Comment on Predicting Aqueous Adsorption of Organic Compounds onto Biochars, Carbon Nanotubes, Granular Activated Carbons, And Resins with Machine Learning. Environmental Science & Technology, 54(18), 11636-11637. https://doi.org/10.1021/acs.est.0c03931
Liu, X., Gharasoo, M., Shi, Y., Sigmund, G., Hüffer, T., Duan, N., Wang, Y., Ji, R., Hofmann, T., & Chen, W. (2020). Key Physicochemical Properties Dictating Gastrointestinal Bioaccessibility of Microplastics-Associated Organic Xenobiotics: Insights from a Deep Learning Approach. Environmental Science & Technology, 54(19), 12051–12062. Article 54. https://doi.org/10.1021/acs.est.0c02838
Brünjes, R. M., & Hofmann, T. (2020). Anthropogenic gadolinium in freshwater and drinking water systems. Water Research, 182, Article 115966. https://doi.org/10.1016/j.watres.2020.115966
Svendsen, C., Walker, L. A., Matzke, M., Lahlve, E., Harrison, S., Crossley, A., Park, B., Lofts, S., Lynch, I., Vázquez-Campos, S., Kaegi, R., Gogos, A., Asbach, C., Cornelis, G., von der Kammer, F., van den Brink, N., Mays, C., & Spurgeon, D. J. (2020). Key principles and operational practices for improved nanotechnology environmental exposure assessment. Nature Nanotechnology, 15(9), 731-742. https://doi.org/10.1038/s41565-020-0742-1
Castan, S., Sigmund, G., Hüffer, T., Tepe, N., von der Kammer, F., Chefetz, B., & Hofmann, T. (2020). The importance of aromaticity to describe the interactions of organic matter with carbonaceous materials depends on molecular weight and sorbent geometry. Environmental Science: Processes & Impact, 22(9), 1888-1897. https://doi.org/10.1039/d0em00267d
Hagemann, N., Schmid, H.-P., Kägi, R., Böhler, M., Sigmund, G., Maccagnan, A., McArdell, C. S., & Bucheli, T. D. (2020). Wood-based activated biochar to eliminate organic micropollutants from biologically treated wastewater. Science of the Total Environment, 730, Article 138417. https://doi.org/10.1016/j.scitotenv.2020.138417
Brumovsky, M., Filip, J., Malina, O., Oborná, J., Sracek, O., Reichenauer, T. G., Andrýsková, P., & Zbořil, R. (2020). Core−Shell Fe/FeS Nanoparticles with Controlled Shell Thickness for Enhanced Trichloroethylene Removal. ACS Applied Materials and Interfaces, 12(31), 35424-35434. https://doi.org/10.1021/acsami.0c08626
Velimirovic-Fanfani, M., Wagner, S., Abdolahpur Monikh, F., Uusimäki, T., Kaegi, R., Hofmann, T., & von der Kammer, F. (2020). Accurate quantification of TiO2 nanoparticles in commercial sunscreens using standard materials and orthogonal particle sizing methods for verification. Talanta, 215, Article 120921. https://doi.org/10.1016/j.talanta.2020.120921
Mittal, Y., Srivastava, P., Kumar, N., & Yadav, A. K. (2020). Remediation of fluoride contaminated water using encapsulated active growing blue-green algae, Phormidium sp. Environmental Technology and Innovation, 19, Article 100855. https://doi.org/10.1016/j.eti.2020.100855
Hofmann, T., Lowry, G., Ghoshal, S., Tufenkji, N., Brambilla, D., Dutcher, J. R., Gilbertson, L. M., Giraldo, J. P., Kinsella, J. M., Landry, M. P., Lovell, W., Naccache, R., Paret, M., Pedersen, J., Unrine, J., White, J. C., & Wilkinson, K. J. (2020). Technology readiness and overcoming barriers to sustainably implement nanotechnology-enabled plant agriculture. Nature Food, 1(7), 416-425. https://doi.org/10.1038/s43016-020-0110-1
Viehmann, S., Reitner, J., Tepe, N., Hohl, S. V., Van Kranendonk, M., Hofmann, T., Köberl, C., & Meister, P. (2020). Carbonates and cherts as archives of seawater chemistry and habitability on a carbonate platform 3.35 Ga ago: Insights from Sm/Nd dating and trace element analysis from the Strelley Pool Formation, Western Australia. Precambrian Research, 344, Article 105742. https://doi.org/10.1016/j.precamres.2020.105742
Noel, V., Kumar, N., Boye, K., Barragan, L., Lezama-Pacheco, J. S., Chu, R., Tolic, N., Brown, G. E., & Bargar, J. R. (2020). FeS colloids - formation and mobilization pathways in natural waters. Environmental Science: Nano, 7(7), 2102-2116. https://doi.org/10.1039/c9en01427f
Showing entries 141 - 160 out of 213