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  • (-) Eawag Departments = Environmental Chemistry UCHEM
  • (-) Publication Year = 2006 - 2018
  • (-) Eawag Authors ≠ Götz, Christian W.
  • (-) Eawag Authors = Hollender, Juliane
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Towards the review of the European Union Water Framework management of chemical contamination in European surface water resources
Brack, W., Dulio, V., Ågerstrand, M., Allan, I., Altenburger, R., Brinkmann, M., … Vrana, B. (2017). Towards the review of the European Union Water Framework management of chemical contamination in European surface water resources. Science of the Total Environment, 576, 720-737. https://doi.org/10.1016/j.scitotenv.2016.10.104
European demonstration program on the effect-based and chemical identification and monitoring of organic pollutants in European surface waters
Tousova, Z., Oswald, P., Slobodnik, J., Blaha, L., Muz, M., Hu, M., … Schulze, T. (2017). European demonstration program on the effect-based and chemical identification and monitoring of organic pollutants in European surface waters. Science of the Total Environment, 601-602, 1849-1868. https://doi.org/10.1016/j.scitotenv.2017.06.032
Elucidation of biotransformation of diclofenac and 4′hydroxydiclofenac during biological wastewater treatment
Bouju, H., Nastold, P., Beck, B., Hollender, J., Corvini, P. F. X., & Wintgens, T. (2016). Elucidation of biotransformation of diclofenac and 4′hydroxydiclofenac during biological wastewater treatment. Journal of Hazardous Materials, 301, 443-452. https://doi.org/10.1016/j.jhazmat.2015.08.054
Effect-directed analysis supporting monitoring of aquatic environments — an in-depth overview
Brack, W., Ait-Aissa, S., Burgess, R. M., Busch, W., Creusot, N., Di Paolo, C., … Krauss, M. (2016). Effect-directed analysis supporting monitoring of aquatic environments — an in-depth overview. Science of the Total Environment, 544, 1073-1118. https://doi.org/10.1016/j.scitotenv.2015.11.102
Nontarget analysis of environmental samples based on liquid chromatography coupled to high resolution mass spectrometry (LC-HRMS)
Gago-Ferrero, P., Schymanski, E. L., Hollender, J., & Thomaidis, N. S. (2016). Nontarget analysis of environmental samples based on liquid chromatography coupled to high resolution mass spectrometry (LC-HRMS). In S. Pérez, P. Eichhorn, & D. Barceló (Eds.), Comprehensive analytical chemistry: Vol. 71. Applications of time-of-flight and orbitrap mass spectrometry in environmental, food, doping, and forensic analysis (pp. 381-403). https://doi.org/10.1016/bs.coac.2016.01.012
Temporal trend analysis on LC-HRMS measurements of lake sediments to prioritize organic contaminants
Günthardt, B. F. (2016). Temporal trend analysis on LC-HRMS measurements of lake sediments to prioritize organic contaminants [Master thesis].
Exploring temporal trends of pesticides in lake sediments by LC-HRMS
Müller, A. (2016). Exploring temporal trends of pesticides in lake sediments by LC-HRMS [Master thesis].
Statistical approaches for LC-HRMS data to characterize, prioritize, and identify transformation products from water treatment processes
Schollée, J. E., Schymanski, E. L., & Hollender, J. (2016). Statistical approaches for LC-HRMS data to characterize, prioritize, and identify transformation products from water treatment processes. In J. E. Drewes & T. Letzel (Eds.), ACS symposium series: Vol. 1241. Assessing transformation products of chemicals by non-target and suspect screening - strategies and workflows. Volume 1 (pp. 45-65). https://doi.org/10.1021/bk-2016-1241.ch004
Rapid evolutionary loss of metal resistance revealed by hatching decades-old eggs
Turko, P., Sigg, L., Hollender, J., & Spaak, P. (2016). Rapid evolutionary loss of metal resistance revealed by hatching decades-old eggs. Evolution, International Journal of Organic Evolution, 70(2), 398-407. https://doi.org/10.1111/evo.12859
Identification of micropollutant transformation products formed during wastewater treatment using LC-HR_MS/MS
Avak, S. E. (2015). Identification of micropollutant transformation products formed during wastewater treatment using LC-HR_MS/MS [Master thesis].
Targeted and non-targeted liquid chromatography-mass spectrometric workflows for identification of transformation products of emerging pollutants in the aquatic environment
Bletsou, A. A., Jeon, J., Hollender, J., Archontaki, E., & Thomaidis, N. S. (2015). Targeted and non-targeted liquid chromatography-mass spectrometric workflows for identification of transformation products of emerging pollutants in the aquatic environment. Trends in Analytical Chemistry, 66, 32-44. https://doi.org/10.1016/j.trac.2014.11.009
Compilation of kinetics and mechanisms for the oxidative transformation of organic substances
Bourgin, M., von Gunten, U., McArdell, C. S., Hollender, J., & Hofman-Caris, R. (2015). Compilation of kinetics and mechanisms for the oxidative transformation of organic substances. DEMEAU.
Extended suspect and non-target strategies to characterize emerging polar organic contaminants in raw wastewater with LC-HRMS/MS
Gago-Ferrero, P., Schymanski, E. L., Bletsou, A. A., Aalizadeh, R., Hollender, J., & Thomaidis, N. S. (2015). Extended suspect and non-target strategies to characterize emerging polar organic contaminants in raw wastewater with LC-HRMS/MS. Environmental Science and Technology, 49(20), 12333-12341. https://doi.org/10.1021/acs.est.5b03454
Accelerated isotope fine structure calculation using pruned transition trees
Loos, M., Gerber, C., Corona, F., Hollender, J., & Singer, H. (2015). Accelerated isotope fine structure calculation using pruned transition trees. Analytical Chemistry, 87(11), 5738-5744. https://doi.org/10.1021/acs.analchem.5b00941
Decision basis for implementation of oxidation technologies
McArdell, C. S., Bourgin, M., von Gunten, U., Hollender, J., Kienle, C., & Hofman-Caris, R. (2015). Decision basis for implementation of oxidation technologies. DEMEAU.
Evaluation of in-situ calibration of Chemcatcher passive samplers for 322 micropollutants in agricultural and urban affected rivers
Moschet, C., Vermeirssen, E. L. M., Singer, H., Stamm, C., & Hollender, J. (2015). Evaluation of in-situ calibration of Chemcatcher passive samplers for 322 micropollutants in agricultural and urban affected rivers. Water Research, 71, 306-317. https://doi.org/10.1016/j.watres.2014.12.043
A mixture of environmental organic contaminants in lake sediments affects hatching from <I>Daphnia</I> resting eggs
Möst, M., Chiaia-Hernandez, A. C., Frey, M. P., Hollender, J., & Spaak, P. (2015). A mixture of environmental organic contaminants in lake sediments affects hatching from Daphnia resting eggs. Environmental Toxicology and Chemistry, 34(2), 338-345. https://doi.org/10.1002/etc.2808
Prioritizing unknown transformationproducts from biologically-treated wastewater using high-resolution mass spectrometry, multivariate statistics, and metabolic logic
Schollée, J. E., Schymanski, E. L., Avak, S. E., Loos, M., & Hollender, J. (2015). Prioritizing unknown transformationproducts from biologically-treated wastewater using high-resolution mass spectrometry, multivariate statistics, and metabolic logic. Analytical Chemistry, 87(24), 12121-12129. https://doi.org/10.1021/acs.analchem.5b02905
Investigation on nontarget pattern changes across a drinking water treatment chain
Toedtli, L. (2015). Investigation on nontarget pattern changes across a drinking water treatment chain [Master thesis].
Reducing the discharge of micropollutants in the aquatic environment: the benefits of upgrading wastewater treatment plants
Eggen, R. I. L., Hollender, J., Joss, A., Schärer, M., & Stamm, C. (2014). Reducing the discharge of micropollutants in the aquatic environment: the benefits of upgrading wastewater treatment plants. Environmental Science and Technology, 48(14), 7683-7689. https://doi.org/10.1021/es500907n
 

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