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Development and application of liquid chromatographic retention time indices in HRMS-based suspect and nontarget screening
Aalizadeh, R., Alygizakis, N. A., Schymanski, E. L., Krauss, M., Schulze, T., Ibáñez, M., … Thomaidis, N. S. (2021). Development and application of liquid chromatographic retention time indices in HRMS-based suspect and nontarget screening. Analytical Chemistry, 93(33), 11601-11611. https://doi.org/10.1021/acs.analchem.1c02348
Retention projection enables accurate calculation of liquid chromatographic retention times across labs and methods
Abate-Pella, D., Freund, D. M., Ma, Y., Simón-Manso, Y., Hollender, J., Broeckling, C. D., … Boswell, P. G. (2015). Retention projection enables accurate calculation of liquid chromatographic retention times across labs and methods. Journal of Chromatography A, 1412, 43-51. https://doi.org/10.1016/j.chroma.2015.07.108
Ozonung von gereinigtem Abwasser. Schlussbericht Pilotversuch Regensdorf
Abegglen, C., Escher, B., Hollender, J., Koepke, S., Ort, C., Peter, A., … Rensch, D. (2009). Ozonung von gereinigtem Abwasser. Schlussbericht Pilotversuch Regensdorf. Eawag.
Ozonung von gereinigtem Abwasser zur Elimination von organischen Spurenstoffen. Großtechnischer Pilotversuch Regensdorf (Schweiz)
Abegglen, C., Escher, B., Hollender, J., Siegrist, H., von Gunten, U., Zimmermann, S., … Schärer, M. (2010). Ozonung von gereinigtem Abwasser zur Elimination von organischen Spurenstoffen. Großtechnischer Pilotversuch Regensdorf (Schweiz). KA: Korrespondenz Abwasser Abfall, 57(2), 155-160. https://doi.org/10.3242/kae2010.02.004
The fate of selected micropollutants in a single-house MBR
Abegglen, C., Joss, A., McArdell, C. S., Fink, G., Schlüsener, M. P., Ternes, T. A., & Siegrist, H. (2009). The fate of selected micropollutants in a single-house MBR. Water Research, 43(7), 2036-2046. https://doi.org/10.1016/j.watres.2009.02.005
Trends in micropollutant biotransformation along a solids retention time gradient
Achermann, S., Falås, P., Joss, A., Mansfeldt, C., Men, Y., Vogler, B., & Fenner, K. (2018). Trends in micropollutant biotransformation along a solids retention time gradient. Environmental Science and Technology, 52(20), 11601-11611. https://doi.org/10.1021/acs.est.8b02763
Relating metatranscriptomic profiles to the micropollutant biotransformation potential of complex microbial communities
Achermann, S., Mansfeldt, C. B., Müller, M., Johnson, D. R., & Fenner, K. (2020). Relating metatranscriptomic profiles to the micropollutant biotransformation potential of complex microbial communities. Environmental Science and Technology, 54(1), 235-244. https://doi.org/10.1021/acs.est.9b05421
Biotransformation of sulfonamide antibiotics in activated sludge: the formation of pterin-conjugates leads to sustained risk
Achermann, S., Bianco, V., Mansfeldt, C. B., Vogler, B., Kolvenbach, B. A., Corvini, P. F. X., & Fenner, K. (2018). Biotransformation of sulfonamide antibiotics in activated sludge: the formation of pterin-conjugates leads to sustained risk. Environmental Science and Technology, 52(11), 6265-6274. https://doi.org/10.1021/acs.est.7b06716
A DFT study of permanganate oxidation of toluene and its ortho-nitroderivatives
Adamczyk, P., Wijker, R. S., Hofstetter, T. B., & Paneth, P. (2014). A DFT study of permanganate oxidation of toluene and its ortho-nitroderivatives. Journal of Molecular Modeling, 20(2), 2091 (13 pp.). https://doi.org/10.1007/s00894-014-2091-1
Spatiotemporal change detection of carbon storage and sequestration in an arid ecosystem by integrating Google Earth Engine and InVEST (the Jiroft plain, Iran)
Adelisardou, F., Zhao, W., Chow, R., Mederly, P., Minkina, T., & Schou, J. S. (2022). Spatiotemporal change detection of carbon storage and sequestration in an arid ecosystem by integrating Google Earth Engine and InVEST (the Jiroft plain, Iran). International Journal of Environmental Science and Technology, 19, 5929-5944. https://doi.org/10.1007/s13762-021-03676-6
Quantifying in situ transformation rates of chlorinated ethenes by combining compound-specific stable isotope analysis, groundwater dating, and carbon isotope mass balances
Aeppli, C., Hofstetter, T. B., Amaral, H. I. F., Kipfer, R., Schwarzenbach, R. P., & Berg, M. (2010). Quantifying in situ transformation rates of chlorinated ethenes by combining compound-specific stable isotope analysis, groundwater dating, and carbon isotope mass balances. Environmental Science and Technology, 44(10), 3705-3711. https://doi.org/10.1021/es903895b
Mediated electrochemical reduction of iron (oxyhydr-)oxides under defined thermodynamic boundary conditions
Aeppli, M., Voegelin, A., Gorski, C. A., Hofstetter, T. B., & Sander, M. (2018). Mediated electrochemical reduction of iron (oxyhydr-)oxides under defined thermodynamic boundary conditions. Environmental Science and Technology, 52(2), 560-570. https://doi.org/10.1021/acs.est.7b04411
Decreases in iron oxide reducibility during microbial reductive dissolution and transformation of ferrihydrite
Aeppli, M., Vranic, S., Kaegi, R., Kretzschmar, R., Brown, A. R., Voegelin, A., … Sander, M. (2019). Decreases in iron oxide reducibility during microbial reductive dissolution and transformation of ferrihydrite. Environmental Science and Technology, 53(15), 8736-8746. https://doi.org/10.1021/acs.est.9b01299
Electrochemical analysis of changes in iron oxide reducibility during abiotic ferrihydrite transformation into goethite and magnetite
Aeppli, M., Kaegi, R., Kretzschmar, R., Voegelin, A., Hofstetter, T. B., & Sander, M. (2019). Electrochemical analysis of changes in iron oxide reducibility during abiotic ferrihydrite transformation into goethite and magnetite. Environmental Science and Technology, 53(7), 3568-3578. https://doi.org/10.1021/acs.est.8b07190
Thermodynamic controls on rates of iron oxide reduction by extracellular electron shuttles
Aeppli, M., Giroud, S., Vranic, S., Voegelin, A., Hofstetter, T. B., & Sander, M. (2022). Thermodynamic controls on rates of iron oxide reduction by extracellular electron shuttles. Proceedings of the National Academy of Sciences of the United States of America PNAS, 119(3), e2115629119 (8 pp.). https://doi.org/10.1073/pnas.2115629119
Future water quality monitoring - adapting tools to deal with mixtures of pollutants in water resource management
Ait-Aissa, S., Altenburger, R., Antczak, P., Backhaus, T., Barceló, D., Seiler, T. B., … Brack, W. (2015). Future water quality monitoring - adapting tools to deal with mixtures of pollutants in water resource management. Science of the Total Environment, 512-513, 540-551. https://doi.org/10.1016/j.scitotenv.2014.12.057
Occurrence and composition of extracellular lipids and polysaccharides in a full-scale membrane bioreactor
Al-Halbouni, D., Dott, W., & Hollender, J. (2009). Occurrence and composition of extracellular lipids and polysaccharides in a full-scale membrane bioreactor. Water Research, 43(1), 97-106. https://doi.org/10.1016/j.watres.2008.10.008
Correlation of EPS content in activated sludge at different sludge retention times with membrane fouling phenomena
Al-Halbouni, D., Traber, J., Lyko, S., Wintgens, T., Melin, T., Tacke, D., … Hollender, J. (2008). Correlation of EPS content in activated sludge at different sludge retention times with membrane fouling phenomena. Water Research, 42(6–7), 1475-1488. https://doi.org/10.1016/j.watres.2007.10.026
Evaluation of reverse osmosis drinking water treatment of riverbank filtrate using bioanalytical tools and non-target screening
Albergamo, V., Escher, B. I., Schymanski, E. L., Helmus, R., Dingemans, M. M. L., Cornelissen, E. R., … de Voogt, P. (2020). Evaluation of reverse osmosis drinking water treatment of riverbank filtrate using bioanalytical tools and non-target screening. Environmental Science: Water Research and Technology, 6(1), 103-116. https://doi.org/10.1039/c9ew00741e
Non-target screening reveals time trends of polar micropollutants in a riverbank filtration system
Albergamo, V., Schollée, J. E., Schymanski, E. L., Helmus, R., Timmer, H., Hollender, J., & de Voogt, P. (2019). Non-target screening reveals time trends of polar micropollutants in a riverbank filtration system. Environmental Science and Technology, 53(13), 7584-7594. https://doi.org/10.1021/acs.est.9b01750
 

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