Bastos, C.A.P, Faria, N., Ivask, A., Bondarenko, O.M., Kahru, A., and Powell, J. (2018). Ligand-Doped Copper Oxo-hydroxide Nanoparticles are Effective AntimicrobialsNanoscale Research Letters 13, 111.



Blinova, I., Muna, M., Lukjanova, A., Kahru A. (2018). Evaluation of the potential hazard of manufactured metal-based nanomaterials to health of aquatic ecosystems: state of the art. Journal of International Scientific Publications: Ecology & Safety, 12, 174−182.

Blinova, I., Lukjanova, A., Muna, M., Vija, H. and Kahru, A. (2018). Evaluation of the potential hazard of lanthanides to freshwater microcrustaceans. Science of the total environment, 642, 1100−1107.

Blinova, I., Vija, H., Lukjanova, A., Muna, M., Syvertsen-Wiig, G., and Kahru, A. (2018). Assessment of the hazard of nine (doped) lanthanides-based ceramic oxides to four aquatic species. Science of the Total Environment 612, 1171-1176.

Bondarenko, O.M., Sihtmäe, M., Kuzmičiova, J., Ragelienė, L., Kahru, A., Daugelavičius, R. (2018). Bacterial plasma membrane is the main cellular target of silver nanoparticles in Escherichia coli and Pseudomonas aeruginosa. International Journal of Nanomedicine 13, 6779—6790


Ivask, A., Mitchell, A., Malysheva, A., Voelcker, N. H., and Lombi, E. (2018). Methodologies and approaches for the analysis of cell-nanoparticle interactions. WIREs Nanomedicine and Nanobiotechnology 10, e1486.

Ivask, A., Pilkington, E. H., Blin, T., Käkinen, A., Vija, H., Visnapuu, M., Quinn, J. F., Whittaker, M. R., Qiao, R., Davis, T. P., Ke, P.-C., and Voelcker, N. H. (2018). Uptake and transcytosis of functionalized superparamagnetic iron oxide nanoparticles in an in vitro blood brain barrier model. Biomaterials Science 6, 314-323.

Kubo, A.-L., Capjak, I., Vrček, I.V., Bondarenko, O.M., Kurvet, I., Vija, H., Ivask, A., Kasemets, K., and Kahru, A. (2018). Antimicrobial potency of differently coated 10 and 50 nm silver nanoparticles against clinically relevant bacteria Escherichia coli and Staphylococcus aureus. Colloids and Surfaces B: Biointerfaces 170, 401–410.

McCormick, S.C., Tong, Z., Ivask, A., Morozesk, M., Voelcker, N.H., Lombi, E., and Priest, C. (2018). Optimization of binding B-lymphocytes in a microfluidic channel: surface modification, stasis time and shear response. Biofabrication 10, 014101.

Mukherjee, S.P., Bondarenko, O.M., Kohonen, P.,  Andón, F.T., Brzicová, T., Gessner, I., Mathur, S., Bottini, M., Calligari, P., Stella, L., Kisin, E., Shvedova, A., Autio, R., Salminen-Mankonen, H., Lahesmaa, R., and Fadeel, B. (2018). Macrophage sensing of single-walled carbon nanotubes via Toll-like receptors. Scientific Reports 8, 1115.


Pikula, K.S., Zakharenko, A.M., Chaika, V.V., Vedyagin, A.A., Orlova, T.Yu., Mishakov, I.V., Kuznetsov, V.L., Park, S., Renieri, E.A., Kahru, A., Tsatsakis, A.M., Golokhvast K.S. (2018). Effects of carbon and silicon nanotubes and carbon nanofibers on marine microalgae Heterosigma akashiwo. Environmental Research 166, 473-480.

Rosenberg, M., Vija, H., Kahru, A., Keevil, C.W., and Ivask, A. (2018). Rapid in situ assessment of Cu-ion mediated effects and antibacterial efficacy of copper surfaces. Scientific Reports 8, 8172.


Visnapuu, M., Rosenberg, M.,  Truska, E., Nõmmiste, E., Šutka, A., Kahru, A., Rähn, M., Vija, H., Orupõld, K., Kisand, V., and Ivask, A. (2018). UVA-induced antimicrobial activity of ZnO/Ag nanocomposite covered surfaces. Colloids and Surfaces B: Biointerfaces 169, 222-232.

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