Enhanced Antifouling Properties of Carbohydrate Coated Poly(ether sulfone) Membranes

Angione, M. Daniela; Duff, Thomas; Bell, Alan P.; Stamatin, Serban N.; Fay, Cormac; Diamond, Dermot; Scanlan, Eoin M.; Colavita, Paula E.

doi:10.1021/acsami.5b04201

Cited by 28 publications

(50 citation statements)

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“…Coupons of polyethersulfone (PES), stainless steel (SS316) and Nylon-6 (N6) were first modified using lactoside groups via spontaneous reaction of aryldiazonium cations to yield Work from our group demonstrated that PES undergoes functionalization by spontaneous reaction after immersion of pristine substrates in these solutions and we refer to our previous publication for a full characterization of Lac-PES surfaces thus obtained. 33 In the case of SS316 and N6, surfaces were pre-activated prior to functionalization. SS316 surfaces were pre-activated in caustic hypochlorite (bleach) solutions; this treatment is known to have cleaning and oxidising effects on SS316 surfaces.…”

Section: Aryldiazonium Modification Of Stainless Steel and Nylon Couponsmentioning

confidence: 99%

“…Carbohydrate layers prepared via aryldiazonium chemistry are molecular coatings in the 1-2 nm thickness range that preserve the topography of the original substrate, 31,33 so that their main effect is expected to be on surface chemistry and free energy. Results from field experiments show that in the absence of rinsing these coatings do not significantly impact on fouling resistance and little difference is observed with controls.…”

Section: Ss Pre-treatedmentioning

confidence: 99%

“…Results from field tests indicate that carbohydrate coatings show promise as a sustainable and environmentally benign approach for reducing adhesion and retention of marine foulants. Surface modification: Prior to modification with aryldiazonium cations, both polyamide and stainless steel surfaces were pre-activated, while PES surfaces did not require preactivation 33 and were used after light cleaning in methanol only. Nylon-6 (N6) samples were pre-activated by overnight immersion at 30 °C in a 36% aqueous formaldehyde solution with a catalytic amount of hypophosphorous acid.…”

Section: Introductionmentioning

confidence: 99%

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Bioinspired Aryldiazonium Carbohydrate Coatings: Reduced Adhesion of Foulants at Polymer and Stainless Steel Surfaces in a Marine Environment

Myles

Haberlin

Esteban-Tejeda

et al. 2017

ACS Sustainable Chem. Eng.

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Surface treatments that minimise biofouling in marine environments are of interest for a variety of applications, such as environmental monitoring and aquaculture. We report on the effect of saccharide coatings on biomass accumulation at the surface of three materials that find applications in marine settings: stainless steel 316 (SS316), nylon-6 (N-6), and poly(ether sulfone) (PES). Saccharides were immobilized via aryldiazonium chemistry; SS316 and N-6 samples were subjected to oxidative surface pre-treatments prior to saccharide immobilization, whereas PES was modified via direct reaction of pristine surfaces with the aryldiazonium cations. Functionalization was confirmed by a combination of X-ray photoelectron spectroscopy, contact angle experiments and fluorescence imaging of lectinsaccharide binding. Saccharide immobilization was found to increase surface hydrophilicity of all materials tested, while laboratory tests demonstrate that the saccharide coating results in reduced protein adsorption in the absence of specific protein-saccharide interactions. The performance of all three materials after modification with aryldiazonium saccharide films was tested in the field via immersion of modified coupons in coastal waters over a 20 day time period. Results from combined infrared spectroscopy, light microscopy, scanning electron and He-ion microscopy and adenosine-triphosphate content assays show that the density of retained biomass at surfaces is significantly lower on carbohydrate modified samples with respect to unmodified controls. Therefore, functionalization and field test results suggest that carbohydrate aryldiazonium layers could find applications as fouling resistant coatings in marine environments.

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Section: Aryldiazonium Modification Of Stainless Steel and Nylon Couponsmentioning

confidence: 99%

Section: Ss Pre-treatedmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Bioinspired Aryldiazonium Carbohydrate Coatings: Reduced Adhesion of Foulants at Polymer and Stainless Steel Surfaces in a Marine Environment

Myles

Haberlin

Esteban-Tejeda

et al. 2017

ACS Sustainable Chem. Eng.

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“…In an effort to mimic biological antifouling strategies, work has focused on the use of immobilized carbohydrates, given the presence of these molecules in the antiadhesive glycocalyx that surrounds certain cells 18 19 . Research shows, in fact, that oligo- and polysaccharide coatings can control fouling and protein adsorption, while being extremely stable to oxidation 20 21 22 23 24 25 26 .…”

mentioning

confidence: 99%

Modulation of Protein Fouling and Interfacial Properties at Carbon Surfaces via Immobilization of Glycans Using Aryldiazonium Chemistry

Zen

Angione

Behan

et al. 2016

Sci Rep

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Carbon materials and nanomaterials are of great interest for biological applications such as implantable devices and nanoparticle vectors, however, to realize their potential it is critical to control formation and composition of the protein corona in biological media. In this work, protein adsorption studies were carried out at carbon surfaces functionalized with aryldiazonium layers bearing mono- and di-saccharide glycosides. Surface IR reflectance absorption spectroscopy and quartz crystal microbalance were used to study adsorption of albumin, lysozyme and fibrinogen. Protein adsorption was found to decrease by 30–90% with respect to bare carbon surfaces; notably, enhanced rejection was observed in the case of the tested di-saccharide vs. simple mono-saccharides for near-physiological protein concentration values. ζ-potential measurements revealed that aryldiazonium chemistry results in the immobilization of phenylglycosides without a change in surface charge density, which is known to be important for protein adsorption. Multisolvent contact angle measurements were used to calculate surface free energy and acid-base polar components of bare and modified surfaces based on the van Oss-Chaudhury-Good model: results indicate that protein resistance in these phenylglycoside layers correlates positively with wetting behavior and Lewis basicity.

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“…These coatings are environmentally benign and highly stable as compared to other chemical species. Additionally, these carbohydrate coatings were fabricated on poly (ether sulfone) (PES), which demonstrates lower fouling in a complex aqueous environments that are rich in biomass such as the wastewater effluent, as compared to the bare PES membrane surfaces [92]. Subsequently, the performance of carbohydrates immobilized fouling resistant coatings in the marine environment were studied on three different substrates: stainless steel, nylon and PES.…”

Section: Surface Chemistrymentioning

confidence: 99%

Microcapsules-based multifunctional coatings for anticorrosion and antibacterial applications

Chong¹

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First and foremost, I would like to express my most sincere gratitude and appreciation to my supervisor, Prof. Yue Chee Yoon and my ex-supervisor, Prof. Yang Jinglei for their guidance, encouragement and patience in leading me through my studies in NTU. Their unselfish sharing of knowledge and guidance has played a significant role in achieving my current stage of research work and guiding me to the completion of this PhD thesis. Furthermore, I would like to acknowledge Nanyang Technological University for the financial support and the research scholarship of this project.

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Enhanced Antifouling Properties of Carbohydrate Coated Poly(ether sulfone) Membranes

Cited by 28 publications

References 50 publications

Bioinspired Aryldiazonium Carbohydrate Coatings: Reduced Adhesion of Foulants at Polymer and Stainless Steel Surfaces in a Marine Environment

Bioinspired Aryldiazonium Carbohydrate Coatings: Reduced Adhesion of Foulants at Polymer and Stainless Steel Surfaces in a Marine Environment

Modulation of Protein Fouling and Interfacial Properties at Carbon Surfaces via Immobilization of Glycans Using Aryldiazonium Chemistry

Microcapsules-based multifunctional coatings for anticorrosion and antibacterial applications

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