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Transformation of ε-HBCD with the <em>Sphingobium Indicum</em> enzymes LinA1, LinA2 and LinATM, a triple mutant of LinA2
Heeb, N. V., Hubeli, J., Fleischmann, T., Lienemann, P., Nayyar, N., Lal, R., & Kohler, H. P. E. (2021). Transformation of ε-HBCD with the Sphingobium Indicum enzymes LinA1, LinA2 and LinATM, a triple mutant of LinA2. Chemosphere, 267, 129217 (12 pp.). https://doi.org/10.1016/j.chemosphere.2020.129217
Transformation of short-chain chlorinated paraffins by the bacterial haloalkane dehalogenase LinB – Formation of mono- and di-hydroxylated metabolites
Knobloch, M. C., Schinkel, L., Schilling, I., Kohler, H. P. E., Lienemann, P., Bleiner, D., & Heeb, N. V. (2021). Transformation of short-chain chlorinated paraffins by the bacterial haloalkane dehalogenase LinB – Formation of mono- and di-hydroxylated metabolites. Chemosphere, 262, 128288 (13 pp.). https://doi.org/10.1016/j.chemosphere.2020.128288
Environmental impact of rejuvenators in asphalt mixtures containing high reclaimed asphalt content
Muñoz, M., Haag, R., Figi, R., Schreiner, C., Zaumanis, M., Cavalli, M. C., … Heeb, N. V. (2021). Environmental impact of rejuvenators in asphalt mixtures containing high reclaimed asphalt content. Road Materials and Pavement Design. https://doi.org/10.1080/14680629.2021.1891129
Characterization of synthetic single-chain CP standard materials - removal of interfering side products
Heeb, N. V., Iten, S., Schinkel, L., Knobloch, M., Sprengel, J., Lienemann, P., … Vetter, W. (2020). Characterization of synthetic single-chain CP standard materials - removal of interfering side products. Chemosphere, 255, 126959 (8 pp.). https://doi.org/10.1016/j.chemosphere.2020.126959
Biotransformation of short-chain chlorinated paraffins (SCCPs) with LinA2: a HCH and HBCD converting bacterial dehydrohalogenase
Heeb, N. V., Schalles, S., Lehner, S., Schinkel, L., Schilling, I., Lienemann, P., … Kohler, H. P. E. (2019). Biotransformation of short-chain chlorinated paraffins (SCCPs) with LinA2: a HCH and HBCD converting bacterial dehydrohalogenase. Chemosphere, 226, 744-754. https://doi.org/10.1016/j.chemosphere.2019.03.169
PN-emissions of gasoline cars MPI and potentials of GPF
Czerwinski, J., Comte, P., Engelmann, D., Heeb, N., Muñoz, M., Bonsack, P., … Mayer, A. (2018). PN-emissions of gasoline cars MPI and potentials of GPF. SAE technical paper series. . Presented at the WCX™ 18: SAE world congress experience. https://doi.org/10.4271/2018-01-0363
Kinetics and stereochemistry of LinB-catalyzed δ-HBCD transformation: comparison of in vitro and in silico results
Heeb, N. V., Mazenauer, M., Wyss, S., Geueke, B., Kohler, H. P. E., & Lienemann, P. (2018). Kinetics and stereochemistry of LinB-catalyzed δ-HBCD transformation: comparison of in vitro and in silico results. Chemosphere, 207, 118-129. https://doi.org/10.1016/j.chemosphere.2018.05.057
Co-formation and co-release of genotoxic PAHs, alkyl-PAHs and soot nanoparticles from gasoline direct injection vehicles
Muñoz, M., Haag, R., Honegger, P., Zeyer, K., Mohn, J., Comte, P., … Heeb, N. V. (2018). Co-formation and co-release of genotoxic PAHs, alkyl-PAHs and soot nanoparticles from gasoline direct injection vehicles. Atmospheric Environment, 178, 242-254. https://doi.org/10.1016/j.atmosenv.2018.01.050
Effects of four prototype gasoline particle filters (GPFs) on nanoparticle and genotoxic PAH emissions of a gasoline direct injection (GDI) vehicle
Muñoz, M., Haag, R., Zeyer, K., Mohn, J., Comte, P., Czerwinski, J., & Heeb, N. V. (2018). Effects of four prototype gasoline particle filters (GPFs) on nanoparticle and genotoxic PAH emissions of a gasoline direct injection (GDI) vehicle. Environmental Science and Technology, 52(18), 10709-10718. https://doi.org/10.1021/acs.est.8b03125
Gas-phase composition and secondary organic aerosol formation from standard and particle filter-retrofitted gasoline direct injection vehicles investigated in a batch and flow reactor
Pieber, S. M., Kumar, N. K., Klein, F., Comte, P., Bhattu, D., Dommen, J., … Prévôt, A. S. H. (2018). Gas-phase composition and secondary organic aerosol formation from standard and particle filter-retrofitted gasoline direct injection vehicles investigated in a batch and flow reactor. Atmospheric Chemistry and Physics, 18(13), 9929-9954. https://doi.org/10.5194/acp-18-9929-2018
Sustainable fully recycled asphalt concrete. Final report
Poulikakos, L., Zaumanis, M., Cavalli, M. C., Munoz Fernandez, M., & Heeb, N. (2018). Sustainable fully recycled asphalt concrete. Final report. sine nomine.
Carboxylate functional groups mediate interaction with silver nanoparticles in biofilm matrix
Sambalova, O., Thorwarth, K., Heeb, N. V., Bleiner, D., Zhang, Y., Borgschulte, A., & Kroll, A. (2018). Carboxylate functional groups mediate interaction with silver nanoparticles in biofilm matrix. ACS Omega, 3(1), 724-733. https://doi.org/10.1021/acsomega.7b00982
Analysis of medium-chain and long-chain chlorinated paraffins: the Urgent need for more specific analytical standards
Schinkel, L., Bogdal, C., Canonica, E., Cariou, R., Bleiner, D., McNeill, K., & Heeb, N. V. (2018). Analysis of medium-chain and long-chain chlorinated paraffins: the Urgent need for more specific analytical standards. Environmental Science and Technology Letters, 5(12), 708-717. https://doi.org/10.1021/acs.estlett.8b00537
Dealing with strong mass interferences of chlorinated paraffins and their transformation products: an analytical guide
Schinkel, L., Lehner, S., Heeb, N. V., Marchand, P., Cariou, R., McNeill, K., & Bogdal, C. (2018). Dealing with strong mass interferences of chlorinated paraffins and their transformation products: an analytical guide. Trends in Analytical Chemistry, 106, 116-124. https://doi.org/10.1016/j.trac.2018.07.002
Transformation of chlorinated paraffins to olefins during metal work and thermal exposure – Deconvolution of mass spectra and kinetics
Schinkel, L., Lehner, S., Knobloch, M., Lienemann, P., Bogdal, C., McNeill, K., & Heeb, N. V. (2018). Transformation of chlorinated paraffins to olefins during metal work and thermal exposure – Deconvolution of mass spectra and kinetics. Chemosphere, 194, 803-811. https://doi.org/10.1016/j.chemosphere.2017.11.168
Isocyanate emissions from pyrolysis of mattresses containing polyurethane foam
Garrido, M. A., Gerecke, A. C., Heeb, N., Font, R., & Conesa, J. A. (2017). Isocyanate emissions from pyrolysis of mattresses containing polyurethane foam. Chemosphere, 168, 667-675. https://doi.org/10.1016/j.chemosphere.2016.11.009
Biotransformation of hexabromocyclododecanes with hexachlorocyclohexane-transforming <I>Sphingobium chinhatense</I> strain IP26
Heeb, N. V., Grubelnik, A., Geueke, B., Kohler, H. P. E., & Lienemann, P. (2017). Biotransformation of hexabromocyclododecanes with hexachlorocyclohexane-transforming Sphingobium chinhatense strain IP26. Chemosphere, 182, 491-500. https://doi.org/10.1016/j.chemosphere.2017.05.047
Deconvolution of mass spectral interferences of chlorinated alkanes and their thermal degradation products: chlorinated alkenes
Schinkel, L., Lehner, S., Heeb, N. V., Lienemann, P., McNeill, K., & Bogdal, C. (2017). Deconvolution of mass spectral interferences of chlorinated alkanes and their thermal degradation products: chlorinated alkenes. Analytical Chemistry, 89(11), 5923-5931. https://doi.org/10.1021/acs.analchem.7b00331
Hazard identification of exhausts from gasoline-ethanol fuel blends using a multi-cellular human lung model
Bisig, C., Roth, M., Müller, L., Comte, P., Heeb, N., Mayer, A., … Rothen-Rutishauser, B. (2016). Hazard identification of exhausts from gasoline-ethanol fuel blends using a multi-cellular human lung model. Environmental Research, 151, 789-796. https://doi.org/10.1016/j.envres.2016.09.010
Bioethanol blending reduces nanoparticle, PAH, and alkyl- and nitro-PAH emissions and the genotoxic potential of exhaust from a gasoline direct injection flex-fuel vehicle
Munoz, M., Heeb, N. V., Haag, R., Honegger, P., Zeyer, K., Mohn, J., … Czerwinski, J. (2016). Bioethanol blending reduces nanoparticle, PAH, and alkyl- and nitro-PAH emissions and the genotoxic potential of exhaust from a gasoline direct injection flex-fuel vehicle. Environmental Science and Technology, 50(21), 11853-11861. https://doi.org/10.1021/acs.est.6b02606
 

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