Caglar Akay

Adresse:
Permoserstr. 15
04318 Leipzig
Germany
Gebäude: 7.3
Raum: 2.028
Tel.: +49 341 6025 1759
Forschungsinteressen
Caglar ist am EXPOSO-METER Projekt beteiligt, dessen Hauptziel es ist, die interne Exposition des Menschen gegenüber Mischungen aus persistenten und bioakkumulierbaren organischen Schadstoffen zu charakterisieren, um zukünftige Bewertungen von Exposition, Gefahren und Risiken zu ermöglichen. Seine Arbeit konzentriert sich auf:
- Passivem Gleichgewichtssampling mit Silikon-Chemometern
- Chemischen Profilierungstechniken wie GC-MS/MS und GC-HRMS
Lebenslauf
Apr 2024 – Present: Post-doctoral Researcher, Helmholtz-Centre for Environmental Research – UFZ, Department of Exposure Science (Leipzig, Germany)
July 2020 – Dec 2023: Doctoral Researcher, Helmholtz-Centre for Environmental Research – UFZ, Department of Molecular Environmental Biotechnology (Leipzig, Germany)
Oct 2018 – May 2020: M.Sc. in Ecotoxicology, Institute for Environmental Sciences, University of Koblenz-Landau (Landau, Germany)
Sept 2014 – June 2017: M.Sc. in Environmental Technology, Institute of Environmental Sciences, Bogazici University (Istanbul, Turkey)
Sept 2010 – Apr 2014: B.Sc. in Environmental Engineering, Faculty of Civil Engineering, Yildiz Technical University (Istanbul, Turkey)
Projekte
2018 - 2025
EXPOSO-METER:
Kooperationspartner: Ursula Siebert (TIHO Hannover), Christian Sonne/Rune Dietz (Aarhus University), Cristina Fossi/Cristina Panti (UNISI Siena), Heather Stapleton (Duke University), Onno Frerichs (Klinikum Bielefeld)
Publikationen
Inhalt:
Weiterführende Recherchen können Sie in unserem Publikationsverzeichnis durchführen.
2025 (1)
- Liu, X., Köpke, J., Akay, C., Kümmel, S., Imfeld, G. (2025):
Sulfamethoxazole transformation by heat-activated persulfate: Linking transformation products patterns with carbon and nitrogen isotope fractionation
Environ. Sci. Technol. 59 (11), 5704 - 5714 10.1021/acs.est.4c09732
2024 (2)
- Akay, C., Ulrich, N., Ding, C., Nunes da Rocha, U., Adrian, L. (2024):
Sequential anaerobic-aerobic treatment enhances sulfamethoxazole removal: From batch cultures to observations in a large-scale wastewater treatment plant
Environ. Sci. Technol. 58 (28), 12609 - 12620 10.1021/acs.est.4c00368 - Liu, X., Akay, C., Köpke, J., Kümmel, S., Richnow, H.H., Imfeld, G. (2024):
Direct phototransformation of sulfamethoxazole characterized by four-dimensional element compound specific isotope analysis
Environ. Sci. Technol. 58 (23), 10322 - 10333 10.1021/acs.est.4c02666
2023 (1)
- Bonatelli, M.L., Rohwerder, T., Popp, D., Liu, Y., Akay, C., Schultz, C., Liao, K.-P., Ding, C., Reemtsma, T., Adrian, L., Kleinsteuber, S. (2023):
Recently evolved combination of unique sulfatase and amidase genes enables bacterial degradation of the wastewater micropollutant acesulfame worldwide
Front. Microbiol. 14 , art. 1223838 10.3389/fmicb.2023.1223838
2020 (1)
Akay, C., & Tezel, U. (2020). Biotransformation of Acetaminophen by intact cells and crude enzymes of bacteria: A comparative study and modelling. The Science of the total environment, 703, 134990. 10.1016/j.scitotenv.2019.134990