Institute of Sustainable Chemistry
Organisational unit: Institute
Organisation profile
At the Institute of Sustainable Chemistry the research and teaching activities focus on Environmental Chemistry as well as Sustainable Chemistry. Environmental Chemistry focuses on studies regarding the environmental fate and behaviour of already existing chemicals, Sustainable Chemistry develops in a more holistic approach solutions that meet the criteria of sustainability.
In addition, the Institute for Sustainable Chemistry is also home to the didactics of natural sciences with its research and teaching activities in the profession of chemistry, biology and science education with the reference subject of natural sciences.
Topics
Die Schwerpunkte von Forschung und Lehre orientieren sich am Lebenslauf chemischer Stoffe:
- Stoffliche und energetische Ressourcen (Rohstoffe, Beitrag der Chemie zur nachhaltigen Energienutzung)
- Nachhaltige Nutzung chemischer Stoffe und Produkte
- Eintrag chemischer Stoffe in die Umwelt (wie z.B. Arzneimittel, Pestizide, oder Industriechemikalien): Quellen, Nachweis, Verbleib und die damit verbundenen Umweltbelastungen
- Design nachhaltiger chemischer Stoffe (Benign by Design)
Ergänzt werden die chemischen Fragestellungen durch im Sinne der Nachhaltigkeit über die eigentliche Chemie hinausgehende Fragen zur Nutzung von chemischen Stoffen. Diese Aspekte werden interdisziplinär in Kooperation mit den anderen Instituten der Fakultät für Nachhaltigkeit an der Leuphana Universität bearbeitet.
- Chapter › Research › Peer-reviewed
- Published
Analyses of Drugs and Pharmaceuticals in the Environment
Ali, I., Aboul-Enein, H. Y. & Kümmerer, K., 05.07.2011, Biophysico-Chemical Processes of Anthropogenic Organic Compounds in Environmental Systems. Xing, B., Senesi, N. & Ming, P. (eds.). 1 ed. John Wiley & Sons Inc., p. 439-462 24 p.Research output: Contributions to collected editions/works › Chapter › peer-review
- Published
Antibiotics in the Aquatic Environment
Kümmerer, K., 07.12.2011, Antimicrobial Resistance in the Environment. Keen, P. & Montforts, M. (eds.). 1. ed. Hoboken: John Wiley & Sons Ltd., p. 325-335 11 p.Research output: Contributions to collected editions/works › Chapter › peer-review
- Published
Application of non-target analysis with LC-HRMS for the monitoring of raw and potable water: Strategy and results
Bader, T., Schulz, W., Lucke, T. & Winzenbacher, R., 2016, Assessing Transformation Products of Chemicals by Non-Target and Suspect Screening - Strategies and Workflows Volume 2. Letzel, T. & Drewes, J. E. (eds.). American Chemical Society, p. 49-70 22 p. (ACS Symposium Series; vol. 1242).Research output: Contributions to collected editions/works › Chapter › peer-review
- Published
Benign by design: Benign by Design
Kümmerer, K., 14.03.2016, Green and Sustainable Medicinal Chemistry: Methods, Tools and Strategies for the 21st Century Pharmaceutical Industry. Summerton, L., Sneddon, H. F., Jones, L. C. & Clark, J. H. (eds.). Cambridge: Royal Society of Chemistry, p. 73-81 9 p. (RSC Green Chemistry; vol. 2016-January, no. 46).Research output: Contributions to collected editions/works › Chapter › peer-review
- Published
Biorefineries in Germany
Alexandri, M., Demichelis, F., Fiore, S., Lübeck, M. & Pleißner, D., 2020, Waste Biorefinery: Integrating biorefineries for waste valorisation. Bhaskar, T., Rene, E. R., Pandey, A. & Tsang, D. C. W. (eds.). Amsterdam: Elsevier B.V., p. 601-629 29 p.Research output: Contributions to collected editions/works › Chapter › peer-review
- Published
Biotechnological production of organic acids from renewable resources
Pleissner, D., Dietz, D., Duuren, J., Wittmann, C., Yang, X., Lin, C. S. K. & Venus, J., 01.01.2019, Biorefineries. Wagemann, K. & Tippkötter, N. (eds.). CHAM: Springer, Vol. 166. p. 373-410 38 p. (Biochemical Engineering/Biotechnology; vol. 166).Research output: Contributions to collected editions/works › Chapter › peer-review
- Published
Computer Support for Environmental Management Accounting
Möller, A., Prox, M. & Viere, T., 2006, Sustainability accounting and reporting. Schaltegger, S., Bennett, M. & Burritt, R. (eds.). Dordrecht: Springer, p. 605-624 20 p. (Eco-Efficiency in industry and science; vol. 21).Research output: Contributions to collected editions/works › Chapter › peer-review
- Published
Constructed Wetlands Integrated with Advanced Oxidation Processes in Wastewater Treatment for Reuse
Machado, E. L., Lourenço, A. M., Kist, L. T., Schneider, R. C. S., Kern, D., Lobo, E. A. A., Lutterbeck, C. A., Silveira, D. D., Horn, T. B. & Zerwes, F. V., 2016, Advanced Treatment Technologies for Urban Wastewater Reuse. Fatta-Kassinos, D., Dionysiou, D. D. & Kümmerer, K. (eds.). Cham: Springer, p. 197-222 26 p. (Handbook of Environmental Chemistry; vol. 45).Research output: Contributions to collected editions/works › Chapter › peer-review
- Published
Digitale Medien als Mittler im Spannungsfeld zwischen naturwissenschaftlichem Unterricht und inklusiver Pädagogik
Stinken-Rösner, L. & Abels, S., 2021, Naturwissenschaftsdidaktik und Inklusion. Hundermark, S., Sun, X., Abels, S., Nehring, A., Schildknecht, R., Seremet, V. & Lindmeier, C. (eds.). Weinheim: Beltz Juventa Verlag, p. 161-175 15 p. (Sonderpädagogische Förderung heute, Beiheft; vol. 4).Research output: Contributions to collected editions/works › Chapter › peer-review
- Published
Efficiency: A Guiding Principle of Corporate Environmental Management Information Systems
Möller, A., 2010, Corporate Environmental Management Information Systems: Advancements and Trends. Teuteberg, F. & Gomez, J. M. (eds.). Hershey: IGI Global Publishing, p. 1-21 21 p.Research output: Contributions to collected editions/works › Chapter › peer-review