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Health risks for sanitation service workers along a container-based urine collection system and resource recovery value chain
Bischel, H. N., Caduff, L., Schindelholz, S., Kohn, T., & Julian, T. R. (2019). Health risks for sanitation service workers along a container-based urine collection system and resource recovery value chain. Environmental Science and Technology. https://doi.org/10.1021/acs.est.9b01092
Photochemical transformation of poly(butylene adipate-<i>co</i>-terephthalate) and its effects on enzymatic hydrolyzability
De Hoe, G. X., Zumstein, M. T., Getzinger, G. J., Rüegsegger, I., Kohler, H. P. E., Maurer-Jones, M. A., … McNeill, K. (2019). Photochemical transformation of poly(butylene adipate-co-terephthalate) and its effects on enzymatic hydrolyzability. Environmental Science and Technology, 53(5), 2472-2481. https://doi.org/10.1021/acs.est.8b06458
Kinetic isotope effects of the enzymatic transformation of <i>γ</i>-hexachlorocyclohexane by the lindane dehydrochlorinase variants LinA1 and LinA2
Schilling, I. E., Hess, R., Bolotin, J., Lal, R., Hofstetter, T. B., & Kohler, H. P. E. (2019). Kinetic isotope effects of the enzymatic transformation of γ-hexachlorocyclohexane by the lindane dehydrochlorinase variants LinA1 and LinA2. Environmental Science and Technology, 53(5), 2353-2363. https://doi.org/10.1021/acs.est.8b04234
Safely managed hygiene: a risk-based assessment of handwashing water quality
Verbyla, M. E., Pitol, A. K., Navab-Daneshmand, T., Marks, S. J., & Julian, T. R. (2019). Safely managed hygiene: a risk-based assessment of handwashing water quality. Environmental Science and Technology, 53(5), 2852-2861. https://doi.org/10.1021/acs.est.8b06156
Wavelength-dependent damage to adenoviral proteins across the germicidal UV spectrum
Beck, S. E., Hull, N. M., Poepping, C., & Linden, K. G. (2018). Wavelength-dependent damage to adenoviral proteins across the germicidal UV spectrum. Environmental Science and Technology, 52(1), 223-229. https://doi.org/10.1021/acs.est.7b04602
Ion trapping of amines in protozoa: a novel removal mechanism for micropollutants in activated sludge
Gulde, R., Anliker, S., Kohler, H. P. E., & Fenner, K. (2018). Ion trapping of amines in protozoa: a novel removal mechanism for micropollutants in activated sludge. Environmental Science and Technology, 52(1), 52-60. https://doi.org/10.1021/acs.est.7b03556
Virus transfer at the skin−liquid Interface
Pitol, A. K., Bischel, H. N., Kohn, T., & Julian, T. R. (2017). Virus transfer at the skin−liquid Interface. Environmental Science and Technology, 51, 14417-14425. https://doi.org/10.1021/acs.est.7b04949
Comparing the resistance, resilience, and stability of replicate moving bed biofilm and suspended growth combined nitritation–anammox reactors
Wells, G. F., Shi, Y., Laureni, M., Rosenthal, A., Szivák, I., Weissbrodt, D. G., … Morgenroth, E. (2017). Comparing the resistance, resilience, and stability of replicate moving bed biofilm and suspended growth combined nitritation–anammox reactors. Environmental Science and Technology, 51(9), 5108-5117. https://doi.org/10.1021/acs.est.6b05878
Enzymatic hydrolysis of polyester thin films at the nanoscale: effects of polyester structure and enzyme active-site accessibility
Zumstein, M. T., Rechsteiner, D., Roduner, N., Perz, V., Ribitsch, D., Guebitz, G. M., … Sander, M. (2017). Enzymatic hydrolysis of polyester thin films at the nanoscale: effects of polyester structure and enzyme active-site accessibility. Environmental Science and Technology, 51(13), 7476-7485. https://doi.org/10.1021/acs.est.7b01330
High-throughput analysis of enzymatic hydrolysis of biodegradable polyesters by monitoring cohydrolysis of a polyester-embedded fluorogenic probe
Zumstein, M. T., Kohler, H. P. E., McNeill, K., & Sander, M. (2017). High-throughput analysis of enzymatic hydrolysis of biodegradable polyesters by monitoring cohydrolysis of a polyester-embedded fluorogenic probe. Environmental Science and Technology, 51(8), 4358-4367. https://doi.org/10.1021/acs.est.6b06060
Inactivation of antibiotic resistant bacteria and resistance genes by ozone: from laboratory experiments to full-scale wastewater treatment
Czekalski, N., Imminger, S., Salhi, E., Veljkovic, M., Kleffel, K., Drissner, D., … Von Gunten, U. (2016). Inactivation of antibiotic resistant bacteria and resistance genes by ozone: from laboratory experiments to full-scale wastewater treatment. Environmental Science and Technology, 50(21), 11862-11871. https://doi.org/10.1021/acs.est.6b02640
Systematic exploration of biotransformation reactions of amine-containing micropollutants in activated sludge
Gulde, R., Meier, U., Schymanski, E. L., Kohler, H. P. E., Helbling, D. E., Derrer, S., … Fenner, K. (2016). Systematic exploration of biotransformation reactions of amine-containing micropollutants in activated sludge. Environmental Science and Technology, 50(6), 2908-2920. https://doi.org/10.1021/acs.est.5b05186
An American in Zurich: Jerry Schnoor as an ambassador for U.S. environmental science and engineering
Hering, J. G., Giger, W., Hug, S. J., Kohler, H. P. E., Kretzschmar, R., Schwarzenbach, R., … Zobrist, J. (2016). An American in Zurich: Jerry Schnoor as an ambassador for U.S. environmental science and engineering. Environmental Science and Technology, 50(13), 6597-6598. https://doi.org/10.1021/acs.est.5b06233
Biotransformation of two pharmaceuticals by the ammonia-oxidizing archaeon <I>Nitrososphaera gargensis</I>
Men, Y., Han, P., Helbling, D. E., Jehmlich, N., Herbold, C., Gulde, R., … Fenner, K. (2016). Biotransformation of two pharmaceuticals by the ammonia-oxidizing archaeon Nitrososphaera gargensis. Environmental Science and Technology, 50(9), 4682-4692. https://doi.org/10.1021/acs.est.5b06016
Substrate and enzyme specificity of the kinetic isotope effects associated with the dioxygenation of nitroaromatic contaminants
Pati, S. G., Kohler, H. P. E., Pabis, A., Paneth, P., Parales, R. E., & Hofstetter, T. B. (2016). Substrate and enzyme specificity of the kinetic isotope effects associated with the dioxygenation of nitroaromatic contaminants. Environmental Science and Technology, 50(13), 6708-6716. https://doi.org/10.1021/acs.est.5b05084
Quantification of carbon nanotubes in environmental matrices: current capabilities, case studies, and future prospects
Petersen, E. J., Flores-Cervantes, D. X., Bucheli, T. D., Elliott, L. C. C., Fagan, J. A., Gogos, A., … Winchester, M. R. (2016). Quantification of carbon nanotubes in environmental matrices: current capabilities, case studies, and future prospects. Environmental Science and Technology, 50(9), 4587-4605. https://doi.org/10.1021/acs.est.5b05647
Enzymatic hydrolysis of polyester thin films: real-time analysis of film mass changes and dissipation dynamics
Zumstein, M. T., Kohler, H. P. E., McNeill, K., & Sander, M. (2016). Enzymatic hydrolysis of polyester thin films: real-time analysis of film mass changes and dissipation dynamics. Environmental Science and Technology, 50(1), 197-206. https://doi.org/10.1021/acs.est.5b04103
Estimates of nitrogen, phosphorus, biochemical oxygen demand, and fecal coliforms entering the environment due to inadequate sanitation treatment technologies in 108 low and middle income countries
Fuhrmeister, E. R., Schwab, K. J., & Julian, T. R. (2015). Estimates of nitrogen, phosphorus, biochemical oxygen demand, and fecal coliforms entering the environment due to inadequate sanitation treatment technologies in 108 low and middle income countries. Environmental Science and Technology, 49(19), 11604-11611. https://doi.org/10.1021/acs.est.5b02919
BioMig - a method to evaluate the potential release of compounds from and the formation of biofilms on polymeric materials in contact with drinking water
Wen, G., Kötzsch, S., Vital, M., Egli, T., & Ma, J. (2015). BioMig - a method to evaluate the potential release of compounds from and the formation of biofilms on polymeric materials in contact with drinking water. Environmental Science and Technology, 49(19), 11659-11669. https://doi.org/10.1021/acs.est.5b02539
Slow biotransformation of carbon nanotubes by horseradish peroxidase
Flores-Cervantes, D. X., Maes, H. M., Schäffer, A., Hollender, J., & Kohler, H. P. E. (2014). Slow biotransformation of carbon nanotubes by horseradish peroxidase. Environmental Science and Technology, 48(9), 4826-4834. https://doi.org/10.1021/es4053279