Enhanced antibacterial activity of ZnO-PMMA nanocomposites by selective plasma etching in atmospheric pressure

We present an alternative route to enhance antibacterial activity of polymer matrix nanocomposites that incorporate biocidal nanomaterials, using open-air atmospheric pressure plasma etching. We applied He/O2 discharges to rapidly remove the upper organic layers of ZnO -PMMA nanocomposite coatings,...

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Published inMicro and Nano Engineering Vol. 13; p. 100098
Main Authors Dimitrakellis, P., Kaprou, G.D., Papavieros, G., Mastellos, D.C., Constantoudis, V., Tserepi, A., Gogolides, E.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2021
Elsevier
Subjects
Antibacterial
Antimicrobial
Atmospheric plasma etching
Nanocomposites
Nanometrology of composites
Nanotexturing
Zinc oxide
Antimicrobial
Nanotexturing
Nanocomposites
Nanometrology of composites
Atmospheric plasma etching
Zinc oxide
Antibacterial
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Abstract We present an alternative route to enhance antibacterial activity of polymer matrix nanocomposites that incorporate biocidal nanomaterials, using open-air atmospheric pressure plasma etching. We applied He/O2 discharges to rapidly remove the upper organic layers of ZnO -PMMA nanocomposite coatings, thus increasing the surface concentration of ZnO. To quantify the ZnO concentration from SEM images on the surface of the nanocomposite material, we developed and employed a new nanometrology method based on local variances of pixel luminosities and found a rapid increase of surface fraction up to 30% for the first 2 min of plasma treatment. Plasma etching resulted in enhanced antibacterial activity against Gram-negative E. coli cells after 4 h incubation under dynamic conditions. The results revealed an almost exponential drop of bacterial concentration with ZnO surface fraction, thus confirming the direct correlation of antibacterial activity with the interfacial area of the biocidal nanomaterial. [Display omitted] •Atmospheric plasma etching applied for nanotexturing of ZnO/PMMA nanocomposite.•Surface concentration of ZnO aggregates/clusters increased with plasma etching time.•New nanometrology method developed for nanocomposite surface analysis and quantification of ZnO coverage from SEM images.•Enhanced antibacterial activity of the plasma nanotextured surfaces against E.coli was observed.•Direct correlation of antibacterial activity with the biocidal ZnO interfacial area was found.
AbstractList We present an alternative route to enhance antibacterial activity of polymer matrix nanocomposites that incorporate biocidal nanomaterials, using open-air atmospheric pressure plasma etching. We applied He/O2 discharges to rapidly remove the upper organic layers of ZnO -PMMA nanocomposite coatings, thus increasing the surface concentration of ZnO. To quantify the ZnO concentration from SEM images on the surface of the nanocomposite material, we developed and employed a new nanometrology method based on local variances of pixel luminosities and found a rapid increase of surface fraction up to 30% for the first 2 min of plasma treatment. Plasma etching resulted in enhanced antibacterial activity against Gram-negative E. coli cells after 4 h incubation under dynamic conditions. The results revealed an almost exponential drop of bacterial concentration with ZnO surface fraction, thus confirming the direct correlation of antibacterial activity with the interfacial area of the biocidal nanomaterial.
We present an alternative route to enhance antibacterial activity of polymer matrix nanocomposites that incorporate biocidal nanomaterials, using open-air atmospheric pressure plasma etching. We applied He/O2 discharges to rapidly remove the upper organic layers of ZnO -PMMA nanocomposite coatings, thus increasing the surface concentration of ZnO. To quantify the ZnO concentration from SEM images on the surface of the nanocomposite material, we developed and employed a new nanometrology method based on local variances of pixel luminosities and found a rapid increase of surface fraction up to 30% for the first 2 min of plasma treatment. Plasma etching resulted in enhanced antibacterial activity against Gram-negative E. coli cells after 4 h incubation under dynamic conditions. The results revealed an almost exponential drop of bacterial concentration with ZnO surface fraction, thus confirming the direct correlation of antibacterial activity with the interfacial area of the biocidal nanomaterial. [Display omitted] •Atmospheric plasma etching applied for nanotexturing of ZnO/PMMA nanocomposite.•Surface concentration of ZnO aggregates/clusters increased with plasma etching time.•New nanometrology method developed for nanocomposite surface analysis and quantification of ZnO coverage from SEM images.•Enhanced antibacterial activity of the plasma nanotextured surfaces against E.coli was observed.•Direct correlation of antibacterial activity with the biocidal ZnO interfacial area was found.
ArticleNumber 100098
Author Kaprou, G.D.
Papavieros, G.
Mastellos, D.C.
Constantoudis, V.
Gogolides, E.
Dimitrakellis, P.
Tserepi, A.
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  surname: Gogolides
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  email: e.gogolides@inn.demokritos.gr
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Keywords Antimicrobial
Nanotexturing
Nanocomposites
Nanometrology of composites
Atmospheric plasma etching
Zinc oxide
Antibacterial
Language English
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Snippet We present an alternative route to enhance antibacterial activity of polymer matrix nanocomposites that incorporate biocidal nanomaterials, using open-air...
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StartPage 100098
SubjectTerms Antibacterial
Antimicrobial
Atmospheric plasma etching
Nanocomposites
Nanometrology of composites
Nanotexturing
Zinc oxide
Title Enhanced antibacterial activity of ZnO-PMMA nanocomposites by selective plasma etching in atmospheric pressure
URI https://dx.doi.org/10.1016/j.mne.2021.100098
https://doaj.org/article/97e7525375b648dbaa8c411ce9ebc95b
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