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Embedding Pd into SnO<sub>2</sub> drastically enhances gas sensing
Jabłczyńska, K., Gogos, A., Kubsch, C. M. P., & Pratsinis, S. E. (2024). Embedding Pd into SnO2 drastically enhances gas sensing. Nanoscale Advances, 6(4), 1259-1268. https://doi.org/10.1039/d3na00558e
Label-free detection of polystyrene nanoparticles in <em>Daphnia magna</em> using Raman confocal mapping
Kaur, J., Kelpsiene, E., Gupta, G., Dobryden, I., Cedervall, T., & Fadeel, B. (2023). Label-free detection of polystyrene nanoparticles in Daphnia magna using Raman confocal mapping. Nanoscale Advances, 5(13), 3453-3462. https://doi.org/10.1039/d3na00323j
2D foam film coating of antimicrobial lysozyme amyloid fibrils onto cellulose nanopapers
Kummer, N., Huguenin-Elie, L., Zeller, A., Chandorkar, Y., Schoeller, J., Zuber, F., … Nyström, G. (2023). 2D foam film coating of antimicrobial lysozyme amyloid fibrils onto cellulose nanopapers. Nanoscale Advances, 5(19), 5276-8285. https://doi.org/10.1039/d3na00370a
Ibuprofen-loaded electrospun poly(ethylene-<em>co</em>-vinyl alcohol) nanofibers for wound dressing applications
Schoeller, J., Wuertz-Kozak, K., Ferguson, S. J., Rottmar, M., Avaro, J., Elbs-Glatz, Y., … Rossi, R. M. (2023). Ibuprofen-loaded electrospun poly(ethylene-co-vinyl alcohol) nanofibers for wound dressing applications. Nanoscale Advances, 5(8), 2261-2270. https://doi.org/10.1039/D3NA00102D
Photoconductivity of PbS/perovskite quantum dots in gold nanogaps
Grimaldi, D., Kelderer, E., Dirin, D. N., Kovalenko, M. V., Hohenau, A., Ditlbacher, H., & Krenn, J. R. (2022). Photoconductivity of PbS/perovskite quantum dots in gold nanogaps. Nanoscale Advances, 4(17), 3566 (7 pp.). https://doi.org/10.1039/d2na00284a
Understanding multiscale structure-property correlations in PVDF-HFP electrospun fiber membranes by SAXS and WAXS
Maurya, A. K., Mias, E., Schoeller, J., Collings, I., Rossi, R. M., Dommann, A., & Neels, A. (2022). Understanding multiscale structure-property correlations in PVDF-HFP electrospun fiber membranes by SAXS and WAXS. Nanoscale Advances, 4(2), 491-501. https://doi.org/10.1039/D1NA00503K
Emulsion electrospinning of sodium alginate/poly(ε-caprolactone) core/shell nanofibers for biomedical applications
Norouzi, M. R., Ghasemi-Mobarakeh, L., Itel, F., Schoeller, J., Fashandi, H., Borzi, A., … Rossi, R. M. (2022). Emulsion electrospinning of sodium alginate/poly(ε-caprolactone) core/shell nanofibers for biomedical applications. Nanoscale Advances, 4(13), 2929-2941. https://doi.org/10.1039/D2NA00201A
PEDOT:PSS-glued MoO<sub>3</sub>nanowire network for all-solid-state flexible transparent supercapacitors
Liang, J., Sheng, H., Wang, Q., Yuan, J., Zhang, X., Su, Q., … Zhang, C. (J. ). (2021). PEDOT:PSS-glued MoO3nanowire network for all-solid-state flexible transparent supercapacitors. Nanoscale Advances, 3(12), 3502-3512. https://doi.org/10.1039/d1na00121c
Uptake, distribution and radio-enhancement effects of gold nanoparticles in tumor microtissues
Neuer, A. L., Gerken, L. R. H., Keevend, K., Gogos, A., & Herrmann, I. K. (2020). Uptake, distribution and radio-enhancement effects of gold nanoparticles in tumor microtissues. Nanoscale Advances, 2(7), 2992 (10 pp.). https://doi.org/10.1039/D0NA00256A
A non-oxidizing fabrication method for lithographic break junctions of sensitive metals
Nyáry, A., Gubicza, A., Overbeck, J., Pósa, L., Makk, P., Calame, M., … Csontos, M. (2020). A non-oxidizing fabrication method for lithographic break junctions of sensitive metals. Nanoscale Advances, 2(9), 3829-3833. https://doi.org/10.1039/D0NA00498G