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Near-plasma chemical surface engineering
Navascués, P., Schütz, U., Hanselmann, B., & Hegemann, D. (2024). Near-plasma chemical surface engineering. Nanomaterials, 14(2), 195 (13 pp.). https://doi.org/10.3390/nano14020195
Nanoporous SiOx plasma polymer films as carrier for liquid‐infused surfaces
Gergs, T., Monti, C., Gaiser, S., Amberg, M., Schütz, U., Mussenbrock, T., … Hegemann, D. (2022). Nanoporous SiOx plasma polymer films as carrier for liquid‐infused surfaces. Plasma Processes and Polymers, 19(8), e2200049 (14 pp.). https://doi.org/10.1002/ppap.202200049
Scalable and sustainable wood for efficient mechanical energy conversion in buildings via triboelectric effects
Sun, J., Schütz, U., Tu, K., Koch, S. M., Roman, G., Stucki, S., … Panzarasa, G. (2022). Scalable and sustainable wood for efficient mechanical energy conversion in buildings via triboelectric effects. Nano Energy, 102, 107670 (14 pp.). https://doi.org/10.1016/j.nanoen.2022.107670
Plasma polymerization of hexamethyldisiloxane: revisited
Hegemann, D., Bülbül, E., Hanselmann, B., Schütz, U., Amberg, M., & Gaiser, S. (2021). Plasma polymerization of hexamethyldisiloxane: revisited. Plasma Processes and Polymers, 18(2), 2000176 (25 pp.). https://doi.org/10.1002/ppap.202000176
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
Top‐down approach to attach liquid polyethylene glycol to solid surfaces by plasma interaction
Gaiser, S., Schütz, U., & Hegemann, D. (2020). Top‐down approach to attach liquid polyethylene glycol to solid surfaces by plasma interaction. Plasma Processes and Polymers, 17(2), e1900211 (7 pp.). https://doi.org/10.1002/ppap.201900211
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
Deposition of functional plasma polymers influenced by reactor geometry in capacitively coupled discharges
Hegemann, D., Michlíček, M., Blanchard, N. E., Schütz, U., Lohmann, D., Vandenbossche, M., … Drábik, M. (2016). Deposition of functional plasma polymers influenced by reactor geometry in capacitively coupled discharges. Plasma Processes and Polymers, 13(2), 279-286. https://doi.org/10.1002/ppap.201500078
Initial growth of functional plasma polymer nanofilms
Vandenbossche, M., Butron Garcia, M. I., Schütz, U., Rupper, P., Amberg, M., & Hegemann, D. (2016). Initial growth of functional plasma polymer nanofilms. Plasma Chemistry and Plasma Processing, 36(2), 667-677. https://doi.org/10.1007/s11090-015-9690-1
Influence of gas phase and surface reactions on plasma polymerization
Guimond, S., Schütz, U., Hanselmann, B., Körner, E., & Hegemann, D. (2011). Influence of gas phase and surface reactions on plasma polymerization. Surface and Coatings Technology, 205(Suppl. 2), S447-S450. https://doi.org/10.1016/j.surfcoat.2011.03.093
Growth mechanism of oxygen-containing functional plasma polymers
Hegemann, D., Körner, E., Albrecht, K., Schütz, U., & Guimond, S. (2010). Growth mechanism of oxygen-containing functional plasma polymers. Plasma Processes and Polymers, 7(11), 889-898. https://doi.org/10.1002/ppap.200900144
Surface structuring of textile fibers using roll embossing
Schift, H., Halbeisen, M., Schütz, U., Delahoche, B., Vogelsang, K., & Gobrecht, J. (2006). Surface structuring of textile fibers using roll embossing. Microelectronic Engineering, 83(4-9), 855-858. https://doi.org/10.1016/j.mee.2006.01.120
Activation energy of an asymmetrical, radio frequency discharge with methane
Hegemann, D., & Schütz, U. (2005). Activation energy of an asymmetrical, radio frequency discharge with methane. Thin Solid Films, 491(1-2), 96-103. https://doi.org/10.1016/j.tsf.2005.05.041
Macroscopic plasma-chemical approach to plasma polymerization of HMDSO and CH<sub>4</sub>
Hegemann, D., Schütz, U., & Fischer, A. (2005). Macroscopic plasma-chemical approach to plasma polymerization of HMDSO and CH4. Surface and Coatings Technology, 200(1-4), 458-462. https://doi.org/10.1016/j.surfcoat.2005.02.194