Galmiz O., Kelar Tučeková Z., Kelar J. et al.: AIP Advances. Fluids and Plasmas 2019, 9(10), 105013.
Crossref
Google Scholar
Štepánová V., Skácelová D., Slavíček P., Černák M.: Chemické Listy 2019, 106, 1495.
Google Scholar
Homola T., Buršíková V., Sťahel P. et al.: “Diffuse coplanar surface barrier discharge pre-treatment for improving coating properties”, Materials from the NANOCON 2014, Brno, Czech Republic, November 5–7, 2014. p. 437.
Crossref
Google Scholar
Štepánová V., Siheník S., Šrámková P. et al.: “Optimisation of the DCSBD roll-to-roll treatment of LLDPE/PA turbular foil using rollers of different electrical resistance”, Materials from the 2nd Plasma Nanotechnologies and Bioapplications Workshop, Broumov, Czech Republic, October 1114, 2021, p. 16.
Google Scholar
Kelar J., Čech J., Slavíček P.: Acta Polytechnica 2015, 55(2), 109.
Crossref
Google Scholar
Talviste R., Galmiz O., Stupavská M. et al.: Wood Science and Technology 2020, 54, 651.
Crossref
Google Scholar
Peters F., Hünnekens B., Wieneke S. et al.: Journal of Physics D: Applied Physics 2017, 50(47), 475206.
Crossref
Google Scholar
Dahle S., Pilko M., Žigon J. et al.: Cellulose 2021, 28, 8055.
Crossref
Google Scholar
Šrámková P., Zahoranová A., Kelar J. et al.: Science Reports 2020, 10, 9478.
Crossref
Google Scholar
Černák M., Černáková L., Hudec I. et al.: The European Physical Journal Applied Physics 2009, 47(2), 22806.
Crossref
Google Scholar
Janík R., Kohutiar M., Dubec A. et al.: Materials 2022, 15(13), 4658.
Crossref
Google Scholar
Gerullis S., Kretzschmar B. S-M., Pfuch A. et al.: Plasma Processes and Polymers 2018, 15(10), 1800058.
Crossref
Google Scholar
Štěpánová V., Šrámková P., Sihelník S. et al.: Vacuum 2021, 183, 109887.
Crossref
Google Scholar
Janík R., Kohutiar M., Pajtášová M. et al.: IOP Conference Series: Materials Science and Engineering 2020, 776, 012090.
Crossref
Google Scholar
Čech J., Brablec A., Černák M. et al.: European Physical Journal D 2017, 71, 27.
Crossref
Google Scholar
Čech J., Sťahel P., Navrátil Z.: European Physical Journal D 2009, 54, 259.
Crossref
Google Scholar
Lazovic S., Puac N., Radic N. et al.: Publications of the Astronomical Observatory of Belgrade 2008, 84, 401.
Google Scholar
Tučeková Z., Zahoranová A., Ruščák M. et al.: “Optical emission spectroscopy of diffuse coplanar surface barrier dischrage”, Materials from the 22nd Annual Conference of Doctoral Students WDS 2013, Prague, Czech Republic, June 47, 2013, p. 144.
Google Scholar
Hansen L., Reck K., Kersten H.: Journal of Physics D: Applied Physics 2019, 52, 325201.
Crossref
Google Scholar
Čech J., Zemánek M., Sahel P. et al.: Acta Polytechnica 2014, 54(6), 383.
Crossref
Google Scholar
Čech J., Brablec A., Sťahel P. et al.: “Influence of electrode temperature on plasma parameters of diffuse coplanar surface barrier discharge”, Materials from the 28th ICPIG, Prague, Czech Republic, July 15–20, 2007, p. 1110.
Google Scholar
Kormuda M., Homola T., Matousek J. et al.: Polymer Degradation and Stability 2012, 97(4), 547.
Crossref
Google Scholar
Čech J., Hanusová J., Sťahel P. et al.: Open Chemistry 2015, 13, 528.
Crossref
Google Scholar
Janík R., Kohutiar M., Pajtášová M. et al.: Materials Science and Engineering Technology 2022, 53(4), 494.
Crossref
Google Scholar
Krmelová V., Janík R., Kopal I.: Zeszyty Naukowe Wyższej Szkoły Zarządzania Ochroną Pracy W Katowicach 2018, 14, 95.
Crossref
Google Scholar
Tučeková Z., Kučerová K., Zahoranová A. et al.: “Parameters of Plasma Generated by Diffuse Coplanar Surface Barrier Discharge Used for Inactivation of Escherichia Coli”, Materials from the WDS'15 Proceedings of Contributed Papers — Physics, Prague, Czech Republic, 2–4 June, 2015, p. 187.
Google Scholar
Prysiazhnyi B., Vasina P., Panyala N.R. et al.: Surface Coatings and Technology 2012, 206(11-12), 3011.
Crossref
Google Scholar
Homola T., Matoušek J., Kormunda M. et al.: Plasma Chemistry and Plasma Processing 2013, 33(5), 881.
Crossref
Google Scholar
Šimor M., Ráheľ J., Vojtek P. et al.: Applied Physics Letters 2002, 81, 2716.
Crossref
Google Scholar
Romero-Sanchez M.D., Martín-Martínez J.M.: International Journal of Adhesion and Adhesives 2006, 26(5), 345.
Crossref
Google Scholar
Moreno-Couranjou M., Choquet P., Guillot G. et al.: Plasma Processes and Polymers 2009, 6(S1), S397.
Crossref
Google Scholar
Praveen K.M., Pious C.V., T. Sabu T., Grohens Y.: “Relevance of Plasma Processing on Polymeric Materials and Interfaces” in “Non-Thermal Plasma Technology for Polymeric Materials: Applications in Composites, Nanostructured Materials, and Biomedical Fields” (T. Sabu, M. Mozetič, U. Cvelbar, P. Špatenka, K.M. Praveen) Matthew Deans, Elsevier, Amsterdam 2019, p. 1.
Crossref
Google Scholar
Camargo J.S.G., Menzes A.J., Cruz N.C. et al.: Materials Research 2017, 20, 842.
Crossref
Google Scholar
Parvathy N., Jomon J., Jemy J. et al.: “Spectroscopic and Mass Spectrometry Analyses of Plasma-Activated Polymeric Materials” in “Non-Thermal Plasma Technology for Polymeric Materials: Applications in Composites, Nanostructured Materials, and Biomedical Fields” (T. Sabu, M. Mozetič, U. Cvelbar, P. Špatenka, K.M. Praveen) Matthew Deans, Elsevier, Amsterdam 2019, p. 319.
Crossref
Google Scholar
Basak G.C., Bandyopadhyay A., Neogi S. et al.: Applied Surface Science 2011, 257(7), 2891.
Crossref
Google Scholar
Romero-Sánchez M.D., Martín-Martínez J.M.: International Journal of Adhesion and Adhesives 2006, 26(5), 345.
Crossref
Google Scholar
Kenth S.J.: “Surface Modification of Plastics” in “Applied Plastics Engineering Handbook, Second Edition” (Meyer K.) Elsevier, Amsterdam 2017, p. 443.
Crossref
Google Scholar
Pator-Blas M. M., Martin-Martínez J. M., Dillard J. G.: Surface and Interface Analysis 1998, 26(5), 385.
Crossref<385: AID-SIA384>3.0.CO;2-K
Google Scholar
Basak G.C., Bandyopadhyay A., Neogi S. et al.: Applied Surface Science 2011, 257(7), 2891.
Crossref
Google Scholar
Zhang X., Zhu X., Liang M. et al.: Journal of Applied Polymer Science 2009, 114(2), 1118.
Crossref
Google Scholar
Rolere S., Liengprayoon S., Vaysse L. et al.: Polymer Testing 2015, 43, 83.
Crossref
Google Scholar
Intapun J., Rungruang T., Suchat S. et al.: Polymers 2021, 13(7), 1109.
Crossref
Google Scholar
Riba J.R., Mansilla M.A., Canals T. et al.: Materials Research 2019, 22, e20180415.
Crossref
Google Scholar
Ginting E.M., Bukit M., Motlan et al.: Journal of Physics: Conference Series 2020, 1428, 012024.
Crossref
Google Scholar
Smith B.C.: Spectroscopy 2022, 37, 8.
Crossref
Google Scholar
Bai C., Gong Z., An L. et al.: Friction 2021, 9(3), 627.
Crossref
Google Scholar
Moreno-Couranjou M., Choquet P., Guillot J. et al.: Plasma Processes and Polymers 2010, 7(12), 963.
Crossref
Google Scholar
Torregrosa-Coque R., Martín-Martínez J.M.: Plasma Processes and Polymers 2011, 8(11), 1080.
Crossref
Google Scholar
Henry A., Vallat M-F., Noel C. et al.: Plasma Process and Polymers 2015, 12(10), 1139.
Crossref
Google Scholar
Nistico R., Lavagna L., Boot E.A. et al.: Plasma Process and Polymers 2021, 18(9), 2100081.
Crossref
Google Scholar
Pastor Blaz M.M., Férrandiz-Goméz T.P., Martín Martínez J.M.: Surface and Interface Analysis 2000, 30, 7.
Google Scholar
Ortíz-Magán A.B., Pator Blas M.M.: Plasma Process and Polymers 2008, 5, 681.
Crossref
Google Scholar
Cheng X., Chen H., Huang S. et al.: Jorunal of Applied Polymer Science. 2012, 126, 1837.
Crossref
Google Scholar
Salaeh S., Nakason C.: Polymer Composites 2012, 33, 489.
Crossref
Google Scholar
Moraes J. H., da Silva Sobrinho A. S., Maciel H. S. et al.: Journal of Physics D: Applied Physics 2007, 40, 7747.
Crossref
Google Scholar
Shen M., Zhang Z., Peng X., Lin X.: Applied Physics A 2017, 123, 601.
Crossref
Google Scholar