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Single exposure to aerosolized graphene oxide and graphene nanoplatelets did not initiate an acute biological response in a 3D human lung model
Drasler, B., Kucki, M., Delhaes, F., Buerki-Thurnherr, T., Vanhecke, D., Korejwo, D., … Wick, P. (2018). Single exposure to aerosolized graphene oxide and graphene nanoplatelets did not initiate an acute biological response in a 3D human lung model. Carbon, 137, 125-135. https://doi.org/10.1016/j.carbon.2018.05.012
Impact of graphene oxide on human placental trophoblast viability, functionality and barrier integrity
Kucki, M., Aengenheister, L., Diener, L., Rippl, A. V., Vranic, S., Newman, L., … Buerki-Thurnherr, T. (2018). Impact of graphene oxide on human placental trophoblast viability, functionality and barrier integrity. 2D materials, 5(3), 035014 (15 pp.). https://doi.org/10.1088/2053-1583/aab9e2
Uptake of label-free graphene oxide by Caco-2 cells is dependent on the cell differentiation status
Kucki, M., Diener, L., Bohmer, N., Hirsch, C., Krug, H. F., Palermo, V., & Wick, P. (2017). Uptake of label-free graphene oxide by Caco-2 cells is dependent on the cell differentiation status. Journal of Nanobiotechnology, 15(1), 46 (18 pp.). https://doi.org/10.1186/s12951-017-0280-7
Endotoxin case study: interference of nanoparticles with the traditional limulus amebocyte lysate gel clot assay
Kucki, M., Cavelius, C., & Kraegeloh, A. (2016). Endotoxin case study: interference of nanoparticles with the traditional limulus amebocyte lysate gel clot assay. In M. A. Dobrovolskaia & S. E. McNeil (Eds.), Frontiers in nanobiomedical research: Vol. 6. Handbook of immunological properties of engineered nanomaterials (pp. 187-206). https://doi.org/10.1142/9789813140431_0008
Interaction of graphene-related materials with human intestinal cells: an <I>in vitro</I> approach
Kucki, M., Rupper, P., Sarrieu, C., Melucci, M., Treossi, E., Schwarz, A., … Wick, P. (2016). Interaction of graphene-related materials with human intestinal cells: an in vitro approach. Nanoscale, 8(16), 8749-8760. https://doi.org/10.1039/C6NR00319B
Detection of endotoxin contamination of graphene based materials using the TNF-α expression test and guidelines for endotoxin-free graphene oxide production
Mukherjee, S. P., Lozano, N., Kucki, M., Del Rio-Castillo, A. E., Newman, L., Vázquez, E., … Fadeel, B. (2016). Detection of endotoxin contamination of graphene based materials using the TNF-α expression test and guidelines for endotoxin-free graphene oxide production. PLoS One, 11(11), e0166816 (17 pp.). https://doi.org/10.1371/journal.pone.0166816
A 3D co-culture microtissue model of the human placenta for nanotoxicity assessment
Muoth, C., Wichser, A., Monopoli, M., Correia, M., Ehrlich, N., Loeschner, K., … Buerki-Thurnherr, T. (2016). A 3D co-culture microtissue model of the human placenta for nanotoxicity assessment. Nanoscale, 8(39), 17322-17332. https://doi.org/10.1039/C6NR06749B
Nanoparticle transport across the placental barrier: pushing the field forward!
Muoth, C., Aengenheister, L., Kucki, M., Wick, P., & Buerki-Thurnherr, T. (2016). Nanoparticle transport across the placental barrier: pushing the field forward!. Nanomedicine, 11(8), 941-957. https://doi.org/10.2217/nnm-2015-0012
Macrophage polarization by titanium dioxide (TiO<SUB>2</SUB>) particles: size matters
Schoenenberger, A. D., Schipanski, A., Malheiro, V., Kucki, M., Snedeker, J. G., Wick, P., & Maniura-Weber, K. (2016). Macrophage polarization by titanium dioxide (TiO2) particles: size matters. ACS Biomaterials Science & Engineering, 2(6), 908-919. https://doi.org/10.1021/acsbiomaterials.6b00006
The role of the protein corona in fiber structure-activity relationships
Kucki, M., Kaiser, J. P., Clift, M. J. D., Rothen-Rutishauser, B., Petri-Fink, A., & Wick, P. (2014). The role of the protein corona in fiber structure-activity relationships. Fibers, 2(3), 187-210. https://doi.org/10.3390/fib2030187
Classification framework for graphene-based materials
Wick, P., Louw-Gaume, A. E., Kucki, M., Krug, H. F., Kostarelos, K., Fadeel, B., … Bianco, A. (2014). Classification framework for graphene-based materials. Angewandte Chemie International Edition, 53(30), 7714-7718. https://doi.org/10.1002/anie.201403335
Rahmenbedingungen für die Klassifizierung graphenbasierter Materialien
Wick, P., Louw-Gaume, A. E., Kucki, M., Krug, H. F., Kostarelos, K., Fadeel, B., … Bianco, A. (2014). Rahmenbedingungen für die Klassifizierung graphenbasierter Materialien. Angewandte Chemie, 126(30), 7846-7850. https://doi.org/10.1002/ange.201403335