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  • (-) Eawag Departments = Environmental Chemistry UCHEM
  • (-) Publication Year = 2006 - 2018
  • (-) Keywords ≠ micropollutants
  • (-) Publication Type ≠ Book
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Characterization of substrate, cosubstrate, and product isotope effects associated with enzymatic oxygenations of organic compounds based on compound-specific isotope analysis
Pati, S. G., Kohler, H. P. E., & Hofstetter, T. B. (2017). Characterization of substrate, cosubstrate, and product isotope effects associated with enzymatic oxygenations of organic compounds based on compound-specific isotope analysis. In M. E. Harris & V. E. Anderson (Eds.), Methods in enzymology: Vol. 596. Measurement and analysis of kinetic isotope effects (pp. 291-329). https://doi.org/10.1016/bs.mie.2017.06.044
Conversion of pyrethroid insecticides to 3-phenoxybenzoic acid on urban hard surfaces
Richards, J., Lu, Z., Fu, Q., Schlenk, D., & Gan, J. (2017). Conversion of pyrethroid insecticides to 3-phenoxybenzoic acid on urban hard surfaces. Environmental Science and Technology Letters, 4(12), 546-550. https://doi.org/10.1021/acs.estlett.7b00466
Grenzwerte für Transformationsprodukte. Herleitung von ökotoxikologisch basierten Grenzwerten für TP von Pharmazeutika: eine Fallstudie
Riegraf, C., Fenner, K., Werner, I., & Kase, R. (2017). Grenzwerte für Transformationsprodukte. Herleitung von ökotoxikologisch basierten Grenzwerten für TP von Pharmazeutika: eine Fallstudie. Aqua & Gas, 97(2), 46-56.
Mechanistic understanding of the synergistic potential of azole fungicides in the aquatic invertebrate <i>Gammarus pulex</i>
Rösch, A., Gottardi, M., Vignet, C., Cedergreen, N., & Hollender, J. (2017). Mechanistic understanding of the synergistic potential of azole fungicides in the aquatic invertebrate Gammarus pulex. Environmental Science and Technology, 51(21), 12784-12795. https://doi.org/10.1021/acs.est.7b03088
Resilience to heat waves in the aquatic snail <i>Lymnaea stagnalis</i>: additive and interactive effects with micropollutants
Salo, T., Stamm, C., Burdon, F. J., Räsänen, K., & Seppälä, O. (2017). Resilience to heat waves in the aquatic snail Lymnaea stagnalis: additive and interactive effects with micropollutants. Freshwater Biology, 62(11), 1831-1846. https://doi.org/10.1111/fwb.12999
Elevated concentrations of 4-bromobiphenyl and 1,3,5-tribromobenzene found in deep water of lake Geneva based on GC×GC-ENCI-TOFMS and GC×GC-μECD
Samanipour, S., Dimitriou-Christidis, P., Nabi, D., & Arey, J. S. (2017). Elevated concentrations of 4-bromobiphenyl and 1,3,5-tribromobenzene found in deep water of lake Geneva based on GC×GC-ENCI-TOFMS and GC×GC-μECD. ACS Omega, 2(2), 641-652. https://doi.org/10.1021/acsomega.6b00440
Chiral pharmaceuticals: a review on their environmental occurrence and fate processes
Sanganyado, E., Lu, Z., Fu, Q., Schlenk, D., & Gan, J. (2017). Chiral pharmaceuticals: a review on their environmental occurrence and fate processes. Water Research, 124, 527-542. https://doi.org/10.1016/j.watres.2017.08.003
Magnitude and mechanism of siderophore-mediated competition at low iron solubility in the &lt;em&gt;Pseudomonas aeruginosa&lt;/em&gt; pyochelin system
Schiessl, K. T., Janssen, E. M. L., Kraemer, S. M., McNeill, K., & Ackermann, M. (2017). Magnitude and mechanism of siderophore-mediated competition at low iron solubility in the Pseudomonas aeruginosa pyochelin system. Frontiers in Microbiology, 8, 1964 (11 pp.). https://doi.org/10.3389/fmicb.2017.01964
GIS analysis and optimisation of faecal sludge logistics at city-wide scale in Kampala, Uganda
Schoebitz, L., Bischoff, F., Lohri, C. R., Niwagaba, C. B., Siber, R., & Strande, L. (2017). GIS analysis and optimisation of faecal sludge logistics at city-wide scale in Kampala, Uganda. Sustainability, 9(2), 194 (16 pp.). https://doi.org/10.3390/su9020194
Assessment of a novel device for onsite integrative large-volume solid phase extraction of water samples to enable a comprehensive chemical and effect-based analysis
Schulze, T., Ahel, M., Ahlheim, J., Aït-Aïssa, S., Brion, F., Di Paolo, C., … Brack, W. (2017). Assessment of a novel device for onsite integrative large-volume solid phase extraction of water samples to enable a comprehensive chemical and effect-based analysis. Science of the Total Environment, 581-582, 350-358. https://doi.org/10.1016/j.scitotenv.2016.12.140
Critical assessment of small molecule identification 2016: automated methods
Schymanski, E. L., Ruttkies, C., Krauss, M., Brouard, C., Kind, T., Dührkop, K., … Neumann, S. (2017). Critical assessment of small molecule identification 2016: automated methods. Journal of Cheminformatics, 9, 1-21. https://doi.org/10.1186/s13321-017-0207-1
Open science for identifying “known unknown” chemicals
Schymanski, E. L., & Williams, A. J. (2017). Open science for identifying “known unknown” chemicals. Environmental Science and Technology, 51(10), 5357-5359. https://doi.org/10.1021/acs.est.7b01908
Synthesis and biological evaluation of hybrid 1,5- and 2,5-disubstituted indoles as potentially new antitubercular agents
Soares, A., Estevao, M. S., Marques, M. M. B., Kovalishyn, V., Latino, D. A. R. S., Aires-de-Sousa, J., … Martins, F. (2017). Synthesis and biological evaluation of hybrid 1,5- and 2,5-disubstituted indoles as potentially new antitubercular agents. Medicinal Chemistry, 13(5), 439-447. https://doi.org/10.2174/1573406413666170209144003
Carbon, hydrogen, and nitrogen isotope fractionation trends in <i>N</i>-nitrosodimethylamine reflect the formation pathway during chloramination of tertiary amines
Spahr, S., von Gunten, U., & Hofstetter, T. B. (2017). Carbon, hydrogen, and nitrogen isotope fractionation trends in N-nitrosodimethylamine reflect the formation pathway during chloramination of tertiary amines. Environmental Science and Technology, 51(22), 13170-13179. https://doi.org/10.1021/acs.est.7b03919
Formation of <I>N</I>-Nitrosodimethylamine during chloramination of secondary and tertiary amines: role of molecular oxygen and radical intermediates
Spahr, S., Cirpka, O. A., von Gunten, U., & Hofstetter, T. B. (2017). Formation of N-Nitrosodimethylamine during chloramination of secondary and tertiary amines: role of molecular oxygen and radical intermediates. Environmental Science and Technology, 51(1), 280-290. https://doi.org/10.1021/acs.est.6b04780
Einfluss von Mikroverunreinigungen
Stamm, C., Burdon, F., Fischer, S., Kienle, C., Munz, N., Tlili, A., … Eggen, R. (2017). Einfluss von Mikroverunreinigungen. Aqua & Gas, 97(6), 90-95.
Exploring micropollutant biotransformation in three freshwater phytoplankton species
Stravs, M. A., Pomati, F., & Hollender, J. (2017). Exploring micropollutant biotransformation in three freshwater phytoplankton species. Environmental Science: Processes and Impacts, 19(6), 822-832. https://doi.org/10.1039/C7EM00100B
On biotransformation of polar organic micropollutants in phytoplankton
Stravs, M. A. (2017). On biotransformation of polar organic micropollutants in phytoplankton [Doctoral dissertation, ETH Zürich]. https://doi.org/10.3929/ethz-b-000212315
Hysteresis and parent-metabolite analyses unravel characteristic pesticide transport mechanisms in a mixed land use catchment
Tang, T., Stamm, C., van Griensven, A., Seuntjens, P., & Bronders, J. (2017). Hysteresis and parent-metabolite analyses unravel characteristic pesticide transport mechanisms in a mixed land use catchment. Water Research, 124, 663-672. https://doi.org/10.1016/j.watres.2017.08.016
Micropollutant-induced tolerance of <I>in situ</I> periphyton: establishing causality in wastewater-impacted streams
Tlili, A., Hollender, J., Kienle, C., & Behra, R. (2017). Micropollutant-induced tolerance of in situ periphyton: establishing causality in wastewater-impacted streams. Water Research, 111, 185-194. https://doi.org/10.1016/j.watres.2017.01.016