Diffuse coplanar surface barrier discharge (DCSBD) plasma
treatment as a part of technology for manufacturing of
nanofiber-based filters

k 2021

Diffuse coplanar surface barrier discharge (DCSBD) plasma treatment as a part of technology for manufacturing of nanofiber-based filters

GALMIZ, Oleksandr; Jakub KELAR; David PAVLIŇÁK; Michal FLEISCHER; Ali JAMAATI KENARI et al.

Základní údaje

Originální název

Diffuse coplanar surface barrier discharge (DCSBD) plasma treatment as a part of technology for manufacturing of nanofiber-based filters

Autoři

GALMIZ, Oleksandr; Jakub KELAR; David PAVLIŇÁK; Michal FLEISCHER; Ali JAMAATI KENARI; Jana SVOBODOVA; Mirko ČERNÁK a Dušan KOVÁČIK

Vydání

13th International Conference on Nanomaterials - Research & Application, 2021

Další údaje

Jazyk

angličtina

Typ výsledku

Prezentace na konferencích

Obor

10300 1.3 Physical sciences

Stát vydavatele

Česká republika

Utajení

není předmětem státního či obchodního tajemství

Odkazy

URL

Označené pro přenos do RIV

Ano

Kód RIV

RIV/00216224:14310/21:00123119

Organizační jednotka

Přírodovědecká fakulta

ISBN

978-80-88365-00-6

Klíčová slova anglicky

plasma treatment; nanofibers; DCSBD technology

Příznaky

Mezinárodní význam, Recenzováno

Změněno: 6. 12. 2021 09:44, Mgr. Oleksandr Galmiz, Ph.D.

Anotace

V originále

Nanofiber membranes are made of synthetic polymers mainly by electrospinning technology. The key point for creating a functional nanofiber membrane for water and air filters is to meet basic key properties such as filtration efficiency, mechanical resistance, and resistance to fouling and chemicals. Design and manufacturing of the advanced nanofiber-based filters urgently require new environment-friendly and cost-effective surface treatments without the use of organic solvents and caustic solutions. To address this need, as an alternative, the atmospheric-pressure plasma treatment offers to be used for surface activation of polymer textile materials serving as a substrate for electrospun nanofiber. Nanofiber carriers were pre-treated by dielectric barrier discharge in continuous mode to improve the adhesion between the produced nanofibers and substrate. The increased adhesive forces to carrier substrate were confirmed by two peeling tests. The fact that the robust and effective DCSBD technology, primarily developed and optimized for the plasma treatment of textile and fibrous material, can be easily implemented in the industrial production lines predetermines this technology for in-line a large throughput manufacturing of advanced nanofiber-based filters. This work was supported by project No. E01-14 funded by the ELIIT initiative.

Návaznosti

E01-14, interní kód MU

Název: In-line plasma technology for a large throughput manufacturing of advanced nanofiber-based filter fabrics (Akronym: Plasma Nanotex)

Investor: Evropská unie, In-line plasma technology for a large throughput manufacturing of advanced nanofiber-based filter fabrics

Citovat

GALMIZ, Oleksandr; Jakub KELAR; David PAVLIŇÁK; Michal FLEISCHER; Ali JAMAATI KENARI; Jana SVOBODOVA; Mirko ČERNÁK a Dušan KOVÁČIK. Diffuse coplanar surface barrier discharge (DCSBD) plasma treatment as a part of technology for manufacturing of nanofiber-based filters. In 13th International Conference on Nanomaterials - Research & Application. 2021. ISBN 978-80-88365-00-6.

@proceedings{1807772,
   author = {Galmiz, Oleksandr and Kelar, Jakub and Pavliňák, David and Fleischer, Michal and Jamaati Kenari, Ali and Svobodova, Jana and Černák, Mirko and Kováčik, Dušan},
   booktitle = {13th International Conference on Nanomaterials - Research & Application},
   keywords = {plasma treatment; nanofibers; DCSBD technology},
   language = {eng},
   isbn = {978-80-88365-00-6},
   title = {Diffuse coplanar surface barrier discharge (DCSBD) plasma treatment as a part of technology for manufacturing of nanofiber-based filters},
   url = {https://www.nanocon.eu/cz/},
   year = {2021}
}

TY  - CONF
ID  - 1807772
AU  - Galmiz, Oleksandr - Kelar, Jakub - Pavliňák, David - Fleischer, Michal - Jamaati Kenari, Ali - Svobodova, Jana - Černák, Mirko - Kováčik, Dušan
PY  - 2021
TI  - Diffuse coplanar surface barrier discharge (DCSBD) plasma treatment as a part of technology for manufacturing of nanofiber-based filters
SN  - 9788088365006
KW  - plasma treatment
KW  - nanofibers
KW  - DCSBD technology
UR  - https://www.nanocon.eu/cz/
N2  - Nanofiber membranes are made of synthetic polymers mainly by electrospinning technology. The key point for creating a functional nanofiber membrane for water and air filters is to meet basic key properties such as filtration efficiency, mechanical resistance, and resistance to fouling and chemicals. Design and manufacturing of the advanced nanofiber-based filters urgently require new environment-friendly and cost-effective surface treatments without the use of organic solvents and caustic solutions. To address this need, as an alternative, the atmospheric-pressure plasma treatment offers to be used for surface activation of polymer textile materials serving as a substrate for electrospun nanofiber. Nanofiber carriers were pre-treated by dielectric barrier discharge in continuous mode to improve the adhesion between the produced nanofibers and substrate. The increased adhesive forces to carrier substrate were confirmed by two peeling tests. The fact that the robust and effective DCSBD technology, primarily developed and optimized for the plasma treatment of textile and fibrous material, can be easily implemented in the industrial production lines predetermines this technology for in-line a large throughput manufacturing of advanced nanofiber-based filters. This work was supported by project No. E01-14 funded by the ELIIT initiative.
ER  -

GALMIZ, Oleksandr; Jakub KELAR; David PAVLIŇÁK; Michal FLEISCHER; Ali JAMAATI KENARI; Jana SVOBODOVA; Mirko ČERNÁK a Dušan KOVÁČIK. Diffuse coplanar surface barrier discharge (DCSBD) plasma treatment as a part of technology for manufacturing of nanofiber-based filters. In \textit{13th International Conference on Nanomaterials - Research \&{} Application}. 2021. ISBN~978-80-88365-00-6.

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