Plasma Activation as a Powerful Tool for Selective Modification of Cellulose Fibers towards Biomedical Applications

Plasma Activation as a Powerful Tool for Selective Modification of Cellulose Fibers towards Biomedical Applications

Cellulosic substrates are known for their biocompatibility, non-cytotoxicity, hypoallergenicity and sterilizability. It is therefore desirable to have a bundle of methods to equip them with tailored properties such as affinity profiles for various applications. In the case of highly swelling materia...

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Main Authors: Olivia Mauger, Sophia Westphal, Stefanie Klöpzig, Anne Krüger-Genge, Werner Müller, Joachim Storsberg, Jörg Bohrisch
Format: Article
Language:English
Published: MDPI AG 2020-11-01
Series:Plasma
Subjects:
low-pressure plasma
plasma activation
regenerated cellulose
bacterial affinity
silanation
Online Access:https://www.mdpi.com/2571-6182/3/4/15
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spelling doaj-ef55fc0658b5433d89c8de19f6a02a662020-11-25T04:03:49ZengMDPI AGPlasma2571-61822020-11-0131519620310.3390/plasma3040015Plasma Activation as a Powerful Tool for Selective Modification of Cellulose Fibers towards Biomedical ApplicationsOlivia Mauger0Sophia Westphal1Stefanie Klöpzig2Anne Krüger-Genge3Werner Müller4Joachim Storsberg5Jörg Bohrisch6Department of Healthcare, Biomaterials & Cosmeceuticals, Fraunhofer-Institute for Applied Polymer Research (IAP), 14476 Potsdam, GermanyDepartment of Healthcare, Biomaterials & Cosmeceuticals, Fraunhofer-Institute for Applied Polymer Research (IAP), 14476 Potsdam, GermanyDepartment of Healthcare, Biomaterials & Cosmeceuticals, Fraunhofer-Institute for Applied Polymer Research (IAP), 14476 Potsdam, GermanyDepartment of Healthcare, Biomaterials & Cosmeceuticals, Fraunhofer-Institute for Applied Polymer Research (IAP), 14476 Potsdam, GermanyQUESTALPHA GmbH & Co. KG, 35713 Eschenburg, GermanyDepartment of Healthcare, Biomaterials & Cosmeceuticals, Fraunhofer-Institute for Applied Polymer Research (IAP), 14476 Potsdam, GermanyDepartment of Healthcare, Biomaterials & Cosmeceuticals, Fraunhofer-Institute for Applied Polymer Research (IAP), 14476 Potsdam, GermanyCellulosic substrates are known for their biocompatibility, non-cytotoxicity, hypoallergenicity and sterilizability. It is therefore desirable to have a bundle of methods to equip them with tailored properties such as affinity profiles for various applications. In the case of highly swelling materials such as cellulose sponges, “dry” functionalization using plasma activation is the method of choice. The purpose of the study was to adapt low-pressure plasma technology for targeted cellulose modification. Using plasma (pre-) treatment combined with gaseous reactants like O<sub>2,</sub> ethylene oxide or silane, three different cellulose modifications were obtained and characterized by X-ray photoelectron spectroscopy (XPS) and Fourier transform infrared spectroscopy (FTIR). Swelling measurements and bacterial adhesion tests revealed distinctive material properties compared to educt. The development of these non-aqueous methods demonstrated an effective procedural route towards modified cellulosic materials for usage in wound dressing, micro patterned assays or bacterial filtration.https://www.mdpi.com/2571-6182/3/4/15low-pressure plasmaplasma activationregenerated cellulosebacterial affinitysilanation
collection DOAJ
language English
format Article
sources DOAJ
author Olivia Mauger
Sophia Westphal
Stefanie Klöpzig
Anne Krüger-Genge
Werner Müller
Joachim Storsberg
Jörg Bohrisch
spellingShingle Olivia Mauger
Sophia Westphal
Stefanie Klöpzig
Anne Krüger-Genge
Werner Müller
Joachim Storsberg
Jörg Bohrisch
Plasma Activation as a Powerful Tool for Selective Modification of Cellulose Fibers towards Biomedical Applications
Plasma
low-pressure plasma
plasma activation
regenerated cellulose
bacterial affinity
silanation
author_facet Olivia Mauger
Sophia Westphal
Stefanie Klöpzig
Anne Krüger-Genge
Werner Müller
Joachim Storsberg
Jörg Bohrisch
author_sort Olivia Mauger
title Plasma Activation as a Powerful Tool for Selective Modification of Cellulose Fibers towards Biomedical Applications
title_short Plasma Activation as a Powerful Tool for Selective Modification of Cellulose Fibers towards Biomedical Applications
title_full Plasma Activation as a Powerful Tool for Selective Modification of Cellulose Fibers towards Biomedical Applications
title_fullStr Plasma Activation as a Powerful Tool for Selective Modification of Cellulose Fibers towards Biomedical Applications
title_full_unstemmed Plasma Activation as a Powerful Tool for Selective Modification of Cellulose Fibers towards Biomedical Applications
title_sort plasma activation as a powerful tool for selective modification of cellulose fibers towards biomedical applications
publisher MDPI AG
series Plasma
issn 2571-6182
publishDate 2020-11-01
description Cellulosic substrates are known for their biocompatibility, non-cytotoxicity, hypoallergenicity and sterilizability. It is therefore desirable to have a bundle of methods to equip them with tailored properties such as affinity profiles for various applications. In the case of highly swelling materials such as cellulose sponges, “dry” functionalization using plasma activation is the method of choice. The purpose of the study was to adapt low-pressure plasma technology for targeted cellulose modification. Using plasma (pre-) treatment combined with gaseous reactants like O<sub>2,</sub> ethylene oxide or silane, three different cellulose modifications were obtained and characterized by X-ray photoelectron spectroscopy (XPS) and Fourier transform infrared spectroscopy (FTIR). Swelling measurements and bacterial adhesion tests revealed distinctive material properties compared to educt. The development of these non-aqueous methods demonstrated an effective procedural route towards modified cellulosic materials for usage in wound dressing, micro patterned assays or bacterial filtration.
topic low-pressure plasma
plasma activation
regenerated cellulose
bacterial affinity
silanation
url https://www.mdpi.com/2571-6182/3/4/15
work_keys_str_mv AT oliviamauger plasmaactivationasapowerfultoolforselectivemodificationofcellulosefiberstowardsbiomedicalapplications
AT sophiawestphal plasmaactivationasapowerfultoolforselectivemodificationofcellulosefiberstowardsbiomedicalapplications
AT stefanieklopzig plasmaactivationasapowerfultoolforselectivemodificationofcellulosefiberstowardsbiomedicalapplications
AT annekrugergenge plasmaactivationasapowerfultoolforselectivemodificationofcellulosefiberstowardsbiomedicalapplications
AT wernermuller plasmaactivationasapowerfultoolforselectivemodificationofcellulosefiberstowardsbiomedicalapplications
AT joachimstorsberg plasmaactivationasapowerfultoolforselectivemodificationofcellulosefiberstowardsbiomedicalapplications
AT jorgbohrisch plasmaactivationasapowerfultoolforselectivemodificationofcellulosefiberstowardsbiomedicalapplications
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