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Metal‐modified montmorillonite as plasmonic microstructure for direct protein detection
Giovannini, G., Garoli, D., Rupper, P., Neels, A., Rossi, R. M., & Boesel, L. F. (2021). Metal‐modified montmorillonite as plasmonic microstructure for direct protein detection. Sensors, 21(8), 2655 (16 pp.). https://doi.org/10.3390/s21082655
Alkyl sulfone bridged phosphorus flame-retardants for polypropylene
Nazir, R., Gooneie, A., Lehner, S., Jovic, M., Rupper, P., Ott, N., … Gaan, S. (2021). Alkyl sulfone bridged phosphorus flame-retardants for polypropylene. Materials and Design, 200, 109459 (12 pp.). https://doi.org/10.1016/j.matdes.2021.109459
Plasma processing of low vapor pressure liquids to generate functional surfaces
Gaiser, S., Schütz, U., Rupper, P., & Hegemann, D. (2020). Plasma processing of low vapor pressure liquids to generate functional surfaces. Molecules, 25(24), 6024 (23 pp.). https://doi.org/10.3390/molecules25246024
Stabilizing effects of novel phosphorus flame retardant on PET for high-temperature applications
Gooneie, A., Simonetti, P., Rupper, P., Nazir, R., Jovic, M., Gaan, S., … Hufenus, R. (2020). Stabilizing effects of novel phosphorus flame retardant on PET for high-temperature applications. Materials Letters, 276, 128225 (10 pp.). https://doi.org/10.1016/j.matlet.2020.128225
In-situ phosphine oxide physical networks: a facile strategy to achieve durable flame retardant and antimicrobial treatments of cellulose
Nazir, R., Parida, D., Borgstädt, J., Lehner, S., Jovic, M., Rentsch, D., … Gaan, S. (2020). In-situ phosphine oxide physical networks: a facile strategy to achieve durable flame retardant and antimicrobial treatments of cellulose. Chemical Engineering Journal. https://doi.org/10.1016/j.cej.2020.128028
Release of graphene-related materials from epoxy-based composites: characterization, quantification and hazard assessment <em>in vitro</em>
Netkueakul, W., Korejwo, D., Hammer, T., Chortarea, S., Rupper, P., Braun, O., … Wang, J. (2020). Release of graphene-related materials from epoxy-based composites: characterization, quantification and hazard assessment in vitro. Nanoscale, 12(19), 10703-10722. https://doi.org/10.1039/c9nr10245k
Optimization of mica surface hydroxylation in water vapor plasma monitored by optical emission spectroscopy
Rupper, P., Amberg, M., Hegemann, D., & Heuberger, M. (2020). Optimization of mica surface hydroxylation in water vapor plasma monitored by optical emission spectroscopy. Applied Surface Science, 509, 145362 (12 pp.). https://doi.org/10.1016/j.apsusc.2020.145362
Extending the range of controlling protein adsorption via subsurface architecture
Bülbül, E., Rupper, P., Geue, T., Bernard, L., Heuberger, M. P., & Hegemann, D. (2019). Extending the range of controlling protein adsorption via subsurface architecture. ACS Applied Materials and Interfaces, 11(45), 42760-42772. https://doi.org/10.1021/acsami.9b14584
Scalable biosynthesis of melanin by the basidiomycete <i>armillaria cepistipes</i>
Ribera, J., Panzarasa, G., Stobbe, A., Osypova, A., Rupper, P., Klose, D., & Schwarze, F. W. M. R. (2019). Scalable biosynthesis of melanin by the basidiomycete armillaria cepistipes. Journal of Agricultural and Food Chemistry, 67(1), 132-139. https://doi.org/10.1021/acs.jafc.8b05071
Plasma polymer film designs through the eyes of ToF-SIMS
Bernard, L., Rupper, P., Faccio, G., Hegemann, D., Scholder, O., Heuberger, M., … Vandenbossche, M. (2018). Plasma polymer film designs through the eyes of ToF-SIMS. Biointerphases: A Journal of Biomaterials and Biological Interfaces, 13(3), 03B417 (11 pp.). https://doi.org/10.1116/1.5016046
Extraction of biofilms from ureteral stents for quantification and cultivation-dependent and -independent analyses
Buhmann, M. T., Abt, D., Altenried, S., Rupper, P., Betschart, P., Zumstein, V., … Ren, Q. (2018). Extraction of biofilms from ureteral stents for quantification and cultivation-dependent and -independent analyses. Frontiers in Microbiology, 9, 1470 (9 pp.). https://doi.org/10.3389/fmicb.2018.01470
Structure and stability of C:H:O plasma polymer films co-polymerized using dimethyl carbonate
Drabik, M., Lohmann, D., Hanus, J., Shelemin, A., Rupper, P., Biederman, H., & Hegemann, D. (2018). Structure and stability of C:H:O plasma polymer films co-polymerized using dimethyl carbonate. Plasma, 1(1), 156-176. https://doi.org/10.3390/plasma1010015
Interfacial interactions in bicomponent polymer fibers
Leal, A. A., Neururer, O. A., Bian, A., Gooneie, A., Rupper, P., Masania, K., … Hufenus, R. (2018). Interfacial interactions in bicomponent polymer fibers. Polymer, 142, 375-386. https://doi.org/10.1016/j.polymer.2018.03.055
Comprehensive study on flame retardant polyesters from phosphorus additives
Salmeia, K. A., Gooneie, A., Simonetti, P., Nazir, R., Kaiser, J. P., Rippl, A., … Gaan, S. (2018). Comprehensive study on flame retardant polyesters from phosphorus additives. Polymer Degradation and Stability, 155, 22-34. https://doi.org/10.1016/j.polymdegradstab.2018.07.006
Structural development of nanosilver on metal oxide nanofibrous membrane by plasma enhanced chemical vapor deposition (PECVD)
Subjalearndee, N., Hegemann, D., Amberg, M., Hanselmann, B., Rupper, P., & Intasanta, V. (2018). Structural development of nanosilver on metal oxide nanofibrous membrane by plasma enhanced chemical vapor deposition (PECVD). Applied Surface Science, 452, 306-313. https://doi.org/10.1016/j.apsusc.2018.04.215
Formation of lateral chemical gradients in plasma polymer films shielded by an inclined mask
Vandenbossche, M., Petit, L., Mathon-Lagresle, J., Spano, F., Rupper, P., Bernard, L., & Hegemann, D. (2018). Formation of lateral chemical gradients in plasma polymer films shielded by an inclined mask. Plasma Processes and Polymers, 15(4), e1700185 (10 pp.). https://doi.org/10.1002/ppap.201700185
Functionality and chemical stability of plasma polymer films exhibiting a vertical cross-linking gradient in their subsurface
Vandenbossche, M., Dorst, J., Amberg, M., Schütz, U., Rupper, P., Heuberger, M., & Hegemann, D. (2018). Functionality and chemical stability of plasma polymer films exhibiting a vertical cross-linking gradient in their subsurface. Polymer Degradation and Stability, 156, 259-268. https://doi.org/10.1016/j.polymdegradstab.2018.09.015
Near-surface structure of plasma polymer films affects surface behavior in water and its interaction with proteins
Vandenbossche, M., Gunkel-Grabole, G., Car, A., Bernard, L., Rupper, P., Maniura-Weber, K., … Hegemann, D. (2018). Near-surface structure of plasma polymer films affects surface behavior in water and its interaction with proteins. Plasma Chemistry and Plasma Processing, 38(4), 851-870. https://doi.org/10.1007/s11090-018-9897-z
Improving the stability of amino-containing plasma polymer films in aqueous environments
Dorst, J., Vandenbossche, M., Amberg, M., Bernard, L., Rupper, P., Weltmann, K. D., … Hegemann, D. (2017). Improving the stability of amino-containing plasma polymer films in aqueous environments. Langmuir, 33(40), 10736-10744. https://doi.org/10.1021/acs.langmuir.7b02135
Composition and stability of plasma polymer films exhibiting vertical chemical gradients
Rupper, P., Vandenbossche, M., Bernard, L., Hegemann, D., & Heuberger, M. (2017). Composition and stability of plasma polymer films exhibiting vertical chemical gradients. Langmuir, 33(9), 2340-2352. https://doi.org/10.1021/acs.langmuir.6b04600