Publication result detail
Atmospheric Pressure Plasma Polymerized Oxazoline-Based Thin Films-Antibacterial Properties and Cytocompatibility Performance
SŤAHEL, P.; MAZÁNKOVÁ, V.; TOMEČKOVÁ, K.; MATOUŠKOVÁ, P.; BRABLEC, A.; PROKEŠ, L.; JURMANOVÁ, J.; BURŠÍKOVÁ, V.; PŘIBYL, R.; LEHOCKÝ, M.; HUMPOLÍČEK, P.; OZALTIN, K.; TRUNEC, D.
Original Title
Atmospheric Pressure Plasma Polymerized Oxazoline-Based Thin Films-Antibacterial Properties and Cytocompatibility Performance
English Title
Atmospheric Pressure Plasma Polymerized Oxazoline-Based Thin Films-Antibacterial Properties and Cytocompatibility Performance
Type
WoS Article
Original Abstract
Polyoxazolines are a new promising class of polymers for biomedical applications. Antibiofouling polyoxazoline coatings can suppress bacterial colonization of medical devices, which can cause infections to patients. However, the creation of oxazoline-based films using conventional methods is difficult. This study presents a new way to produce plasma polymerized oxazoline-based films with antibiofouling properties and good biocompatibility. The films were created via plasma deposition from 2-methyl-2-oxazoline vapors in nitrogen atmospheric pressure dielectric barrier discharge. Diverse film properties were achieved by increasing the substrate temperature at the deposition. The physical and chemical properties of plasma polymerized polyoxazoline films were studied by SEM, EDX, FTIR, AFM, depth-sensing indentation technique, and surface energy measurement. After tuning of the deposition parameters, films with a capacity to resist bacterial biofilm formation were achieved. Deposited films also promote cell viability.
English abstract
Polyoxazolines are a new promising class of polymers for biomedical applications. Antibiofouling polyoxazoline coatings can suppress bacterial colonization of medical devices, which can cause infections to patients. However, the creation of oxazoline-based films using conventional methods is difficult. This study presents a new way to produce plasma polymerized oxazoline-based films with antibiofouling properties and good biocompatibility. The films were created via plasma deposition from 2-methyl-2-oxazoline vapors in nitrogen atmospheric pressure dielectric barrier discharge. Diverse film properties were achieved by increasing the substrate temperature at the deposition. The physical and chemical properties of plasma polymerized polyoxazoline films were studied by SEM, EDX, FTIR, AFM, depth-sensing indentation technique, and surface energy measurement. After tuning of the deposition parameters, films with a capacity to resist bacterial biofilm formation were achieved. Deposited films also promote cell viability.
Keywords
antibiofouling; plasma polymer; oxazoline
Key words in English
antibiofouling; plasma polymer; oxazoline
Authors
SŤAHEL, P.; MAZÁNKOVÁ, V.; TOMEČKOVÁ, K.; MATOUŠKOVÁ, P.; BRABLEC, A.; PROKEŠ, L.; JURMANOVÁ, J.; BURŠÍKOVÁ, V.; PŘIBYL, R.; LEHOCKÝ, M.; HUMPOLÍČEK, P.; OZALTIN, K.; TRUNEC, D.
RIV year
2020
Released
12.12.2019
Publisher
MDPI
Location
BASEL
ISBN
2073-4360
Periodical
Polymers
Volume
11
Number
12
State
Swiss Confederation
Pages from
1
Pages to
14
Pages count
14
URL
Full text in the Digital Library
BibTex
@article{BUT162182,
author="Pavel {Sťahel} and Věra {Mazánková} and Klára {Tomečková} and Petra {Skoumalová} and Antonín {Brablec} and Lubomír {Prokeš} and Jana {Jurmanová} and Vilma {Buršíková} and Roman {Přibyl} and Marián {Lehocký} and Petr {Humpolíček} and Kadir {Ozaltin} and David {Trunec}",
title="Atmospheric Pressure Plasma Polymerized Oxazoline-Based Thin Films-Antibacterial Properties and Cytocompatibility Performance",
journal="Polymers",
year="2019",
volume="11",
number="12",
pages="1--14",
doi="10.3390/polym11122069",
issn="2073-4360",
url="https://www.mdpi.com/2073-4360/11/12/2069"
}Documents