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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
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
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
Measurement of oxygen isotope ratios (<SUP>18</SUP>O/<SUP>16</SUP>O) of aqueous O<SUB>2</SUB> in small samples by gas chromatography/isotope ratio mass spectrometry
Pati, S. G., Bolotin, J., Brennwald, M. S., Kohler, H. P. E., Werner, R. A., & Hofstetter, T. B. (2016). Measurement of oxygen isotope ratios (18O/16O) of aqueous O2 in small samples by gas chromatography/isotope ratio mass spectrometry. Rapid Communications in Mass Spectrometry, 30(6), 684-690. https://doi.org/10.1002/rcm.7481
Isotope fractionation associated with the direct photolysis of 4-chloroaniline
Ratti, M., Canonica, S., McNeill, K., Erickson, P. R., Bolotin, J., & Hofstetter, T. B. (2015). Isotope fractionation associated with the direct photolysis of 4-chloroaniline. Environmental Science and Technology, 49(7), 4263-4273. https://doi.org/10.1021/es505784a
Isotope fractionation associated with the indirect photolysis of substituted anilines in aqueous solution
Ratti, M., Canonica, S., McNeill, K., Bolotin, J., & Hofstetter, T. B. (2015). Isotope fractionation associated with the indirect photolysis of substituted anilines in aqueous solution. Environmental Science and Technology, 49(21), 12766-12773. https://doi.org/10.1021/acs.est.5b03119
Isotope fractionation associated with the photochemical dechlorination of chloroanilines
Ratti, M., Canonica, S., McNeill, K., Bolotin, J., & Hofstetter, T. B. (2015). Isotope fractionation associated with the photochemical dechlorination of chloroanilines. Environmental Science and Technology, 49(16), 9797-9806. https://doi.org/10.1021/acs.est.5b02602
Compound-specific carbon, nitrogen, and hydrogen isotope analysis of <I>N</I>-nitrosodimethylamine in aqueous solutions
Spahr, S., Bolotin, J., Schleucher, J., Ehlers, I., von Gunten, U., & Hofstetter, T. B. (2015). Compound-specific carbon, nitrogen, and hydrogen isotope analysis of N-nitrosodimethylamine in aqueous solutions. Analytical Chemistry, 87(5), 2916-2924. https://doi.org/10.1021/ac5044169
Den Pestiziden auf der Spur
Fenner, K., Hofstetter, T., & Canonica, S. (2014). Den Pestiziden auf der Spur. Eawag Newsletter [dtsch. Ausg.], (1), 1-7. Retrieved from http://newsletter.eawag.ch/e/8bbab41cc9ae86ac/nl/webversion/78f27803809d4c4b3a1eee1d/de.html
Tracking the fate of pesticides
Fenner, K., Hofstetter, T., & Canonica, S. (2014). Tracking the fate of pesticides. Eawag Newsletter [engl. ed.], (1), 1-7. Retrieved from http://newsletter.eawag.ch/e/8bbab41cc9ae86ac/nl/webversion/78f27803809d4c4b3a1eee1d/en.html
Devenir des pesticides dans l’environnement : la traque s’affine
Hofstetter, T., Fenner, K., & Canonica, S. (2014). Devenir des pesticides dans l’environnement : la traque s’affine. Eawag Newsletter [éd. fr.], (1), 1-7. Retrieved from http://newsletter.eawag.ch/e/8bbab41cc9ae86ac/nl/webversion/78f27803809d4c4b3a1eee1d/fr.html
Redox properties of structural Fe in clay minerals: 3. Relationships between smectite redox and structural properties
Gorski, C. A., Klüpfel, L. E., Voegelin, A., Sander, M., & Hofstetter, T. B. (2013). Redox properties of structural Fe in clay minerals: 3. Relationships between smectite redox and structural properties. Environmental Science and Technology, 47(23), 13477-13485. https://doi.org/10.1021/es403824x
Redox properties of structural Fe in clay minerals. 1. Electrochemical quantification of electron-donating and -accepting capacities of smectites
Gorski, C. A., Aeschbacher, M., Soltermann, D., Voegelin, A., Baeyens, B., Marques Fernandes, M., … Sander, M. (2012). Redox properties of structural Fe in clay minerals. 1. Electrochemical quantification of electron-donating and -accepting capacities of smectites. Environmental Science and Technology, 46(17), 9360-9368. https://doi.org/10.1021/es3020138
Redox properties of structural Fe in clay minerals. 2. Electrochemical and spectroscopic characterization of electron transfer irreversibility in ferruginous smectite, SWa-1
Gorski, C. A., Klüpfel, L., Voegelin, A., Sander, M., & Hofstetter, T. B. (2012). Redox properties of structural Fe in clay minerals. 2. Electrochemical and spectroscopic characterization of electron transfer irreversibility in ferruginous smectite, SWa-1. Environmental Science and Technology, 46(17), 9369-9377. https://doi.org/10.1021/es302014u
Assessing transformation processes of organic contaminants by compound-specific stable isotope analysis
Hofstetter, T. B., & Berg, M. (2011). Assessing transformation processes of organic contaminants by compound-specific stable isotope analysis. Trends in Analytical Chemistry, 30(4), 618-627. https://doi.org/10.1016/j.trac.2010.10.012
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
Global water pollution and human health
Schwarzenbach, R. P., Egli, T., Hofstetter, T. B., von Gunten, U., & Wehrli, B. (2010). Global water pollution and human health. Annual Review of Environment and Resources, 35, 109-136. https://doi.org/10.1146/annurev-environ-100809-125342
Influence of mass-transfer limitations on carbon isotope fractionation during microbial dechlorination of trichloroethene
Aeppli, C., Berg, M., Cirpka, O. A., Holliger, C., Schwarzenbach, R. P., & Hofstetter, T. B. (2009). Influence of mass-transfer limitations on carbon isotope fractionation during microbial dechlorination of trichloroethene. Environmental Science and Technology, 43(23), 8813-8820. https://doi.org/10.1021/es901481b