Functionalisation of poly(ethylene terephthalate) (PET) surfaces with two cationised xylans by means of two anchoring polymers

Abstract The main aim of this investigation was to study the interaction of cationised xylans as antimicrobial substances with poly(ethylene terephthalate) (PET) model films, prepared by spin coating. A quartz crystal microbalance (QCM-D) with dissipation monitoring was applied as a nanogram sensiti...

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Published in	Holzforschung Vol. 73; no. 7; pp. 695 - 704
Main Authors	Fras Zemljič, Lidija, Dimitrušev, Nena, Saake, Bodo, Strnad, Simona
Format	Journal Article
Language	English
Published	Berlin Walter de Gruyter GmbH 01.07.2019
Subjects	Adsorption Anchoring Antiinfectives and antibacterials Durability Electrostatic properties Entropy Ethylene Hydrophilicity Hydrophobicity Ionic strength Ions Microbalances pH effects Polyethylene terephthalate Polymers Positron emission Quartz crystal microbalance Quartz crystals Sodium Sodium salts Spin coating Sulfonic acid Surface chemistry Tomography Xylan
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Abstract	Abstract The main aim of this investigation was to study the interaction of cationised xylans as antimicrobial substances with poly(ethylene terephthalate) (PET) model films, prepared by spin coating. A quartz crystal microbalance (QCM-D) with dissipation monitoring was applied as a nanogram sensitive balance to detect the amount of adsorbed cationised xylans. The xylan adsorption onto PET model films was studied as a function of pH and ionic strength. To improve the adsorption, positively charged polyethylenimid (PEI) and negatively charged polyvinyl-sulfonic acid (PVSA), as sodium salt, were applied as anchoring polymers. Surface free energies and hydrophilic/hydrophobic properties of surfaces were monitored by goniometry. Cationised xylans favourably deposited at pH 5, where beside electrostatic, physical interactions are possible, and adsorption may be driven by entropy gain. Higher ionic strengths of solutions also improved adsorption, due to the lower water solubilities of xylans. When intermediate layers of chosen anchoring polymers were applied on the PET surfaces, the binding of xylans as well as their coating durability were improved. Surface modifications presented in this work, provided important information regarding the adsorption/desorption phenomena between antimicrobial cationised xylans and synthetic PET surfaces. The latter is of great interest, when composing hydrophilic and antimicrobial PET surfaces for medical applications.
AbstractList	Abstract The main aim of this investigation was to study the interaction of cationised xylans as antimicrobial substances with poly(ethylene terephthalate) (PET) model films, prepared by spin coating. A quartz crystal microbalance (QCM-D) with dissipation monitoring was applied as a nanogram sensitive balance to detect the amount of adsorbed cationised xylans. The xylan adsorption onto PET model films was studied as a function of pH and ionic strength. To improve the adsorption, positively charged polyethylenimid (PEI) and negatively charged polyvinyl-sulfonic acid (PVSA), as sodium salt, were applied as anchoring polymers. Surface free energies and hydrophilic/hydrophobic properties of surfaces were monitored by goniometry. Cationised xylans favourably deposited at pH 5, where beside electrostatic, physical interactions are possible, and adsorption may be driven by entropy gain. Higher ionic strengths of solutions also improved adsorption, due to the lower water solubilities of xylans. When intermediate layers of chosen anchoring polymers were applied on the PET surfaces, the binding of xylans as well as their coating durability were improved. Surface modifications presented in this work, provided important information regarding the adsorption/desorption phenomena between antimicrobial cationised xylans and synthetic PET surfaces. The latter is of great interest, when composing hydrophilic and antimicrobial PET surfaces for medical applications. The main aim of this investigation was to study the interaction of cationised xylans as antimicrobial substances with poly(ethylene terephthalate) (PET) model films, prepared by spin coating. A quartz crystal microbalance (QCM-D) with dissipation monitoring was applied as a nanogram sensitive balance to detect the amount of adsorbed cationised xylans. The xylan adsorption onto PET model films was studied as a function of pH and ionic strength. To improve the adsorption, positively charged polyethylenimid (PEI) and negatively charged polyvinyl-sulfonic acid (PVSA), as sodium salt, were applied as anchoring polymers. Surface free energies and hydrophilic/hydrophobic properties of surfaces were monitored by goniometry. Cationised xylans favourably deposited at pH 5, where beside electrostatic, physical interactions are possible, and adsorption may be driven by entropy gain. Higher ionic strengths of solutions also improved adsorption, due to the lower water solubilities of xylans. When intermediate layers of chosen anchoring polymers were applied on the PET surfaces, the binding of xylans as well as their coating durability were improved. Surface modifications presented in this work, provided important information regarding the adsorption/desorption phenomena between antimicrobial cationised xylans and synthetic PET surfaces. The latter is of great interest, when composing hydrophilic and antimicrobial PET surfaces for medical applications.
Author	Strnad, Simona Fras Zemljič, Lidija Dimitrušev, Nena Saake, Bodo
Author_xml	– sequence: 1 givenname: Lidija surname: Fras Zemljič fullname: Fras Zemljič, Lidija organization: University of Maribor , Faculty of Mechanical Engineering, Institute of Engineering Materials and Design , Smetanova ulica 17 , 2000 Maribor , Slovenia – sequence: 2 givenname: Nena surname: Dimitrušev fullname: Dimitrušev, Nena organization: Institute for Environmental Protection and Sensors Ltd. , Beloruska 7 , 2000 Maribor , Slovenia – sequence: 3 givenname: Bodo surname: Saake fullname: Saake, Bodo organization: University of Hamburg, Institute of Wood Science , Chemical Wood Technology , Haidkrugsweg 1 , 22885 Barsbüttel-Willinghusen , Germany – sequence: 4 givenname: Simona surname: Strnad fullname: Strnad, Simona organization: University of Maribor , Faculty of Mechanical Engineering, Institute of Engineering Materials and Design , Smetanova ulica 17 , 2000 Maribor , Slovenia
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Snippet	Abstract The main aim of this investigation was to study the interaction of cationised xylans as antimicrobial substances with poly(ethylene terephthalate)... The main aim of this investigation was to study the interaction of cationised xylans as antimicrobial substances with poly(ethylene terephthalate) (PET) model...
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SubjectTerms	Adsorption Anchoring Antiinfectives and antibacterials Durability Electrostatic properties Entropy Ethylene Hydrophilicity Hydrophobicity Ionic strength Ions Microbalances pH effects Polyethylene terephthalate Polymers Positron emission Quartz crystal microbalance Quartz crystals Sodium Sodium salts Spin coating Sulfonic acid Surface chemistry Tomography Xylan
Title	Functionalisation of poly(ethylene terephthalate) (PET) surfaces with two cationised xylans by means of two anchoring polymers
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