One-Step Dip Coating of Zwitterionic Sulfobetaine Polymers on Hydrophobic and Hydrophilic Surfaces

Sundaram, Harihara S.; Han, Xia; Nowinski, Ann K.; Ella‐Menye, Jean‐Rene; Wimbish, Collin; Marek, Patrick; Senecal, Kris; Jiang, Shaoyi

doi:10.1021/am500362k

Cited by 125 publications

(112 citation statements)

References 42 publications

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“…Many reports in literature have shown that thiol and amine terminated functionalized polymers could covalently bond to the dopamine molecule, and several papers also specifically used the polydopamine layer for this bonding process [8,46,49]. Messersmith et al suggested a possible polymerisation mechanism for dopamine [22], which leads us to believe that at mildly alkaline pH the PLL-g-PEG ad-layer could be covalently grafted to the dopamine molecules of the polydopamine film through Michael or Schiff-base reactions.…”

Section: Qcm-d Analysismentioning

confidence: 99%

“…The polydopamine layer not only readily adheres to most surfaces, but also provides a surface which allows various secondary reactions to take place and could therefore more easily enable the functionalization of material surfaces [22]. The reactions the catechol group of dopamine undergoes with metals, thiols, and amines has led to many research groups favouring the inclusion of dopamine when treating these surfaces [8,22,[24][25][26]36]. While many DOPA-functionalised grafting-to methods have proved successful on the specific surfaces listed above, researchers have encountered fouling when trying the same approach for hydrophobic surfaces.…”

Section: Introductionmentioning

confidence: 99%

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Simple Coatings to Render Polystyrene Protein Resistant

2018

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Non-specific protein adsorption is detrimental to the performance of many biomedical devices. Polystyrene is a commonly used material in devices and thin films. Simple reliable surface modification of polystyrene to render it protein resistant is desired in particular for device fabrication and orthogonal functionalisation schemes. This report details modifications carried out on a polystyrene surface to prevent protein adsorption. The trialed surfaces included Pluronic F127 and PLL-g-PEG, adsorbed on polystyrene, using a polydopamine-assisted approach. Quartz crystal microbalance with dissipation (QCM-D) results showed only short-term anti-fouling success of the polystyrene surface modified with F127, and the subsequent failure of the polydopamine intermediary layer in improving its stability. In stark contrast, QCM-D analysis proved the success of the polydopamine assisted PLL-g-PEG coating in preventing bovine serum albumin adsorption. This modified surface is equally as protein-rejecting after 24 h in buffer, and thus a promising simple coating for long term protein rejection of polystyrene.

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Section: Qcm-d Analysismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Simple Coatings to Render Polystyrene Protein Resistant

2018

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“…[27][28][29][30] Sulfobetaine pendant groups have strong hydration capacity due to the ionic solvation. [31][32][33][34] The use of surface-initiated atom transfer radical polymerization (SI-ATRP) for the preparation of polymer brushes enables precise control of their architectural features, such as the grafting density, the thickness and the composition; therefore, the interfacial properties of polymer films can be tuned flexibly.…”

Section: Introductionmentioning

confidence: 99%

Zwitterionic polymer brush coatings with excellent anti-fog and anti-frost properties

Ezzat

Huang

2016

RSC Adv.

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The formation of fog and frost on transparent surfaces can lead to many problems in our daily life. To address these problems, polymer brushes based on two zwitterionic analogues, poly(sulfobetaine methacrylate) (pSBMA) and poly(sulfobetaine vinylimidazole) (pSBVI), have been prepared by surface-initiated atom transfer radical polymerization (SI-ATRP). Hydrophilic and superhydrophilic pSBMA and pSBVI polymer brushes were prepared by controlling the thickness of the coatings to study the effect of wettability on the anti-fog and anti-frost properties. X-ray photoelectron spectroscopy (XPS), ellipsometry and atomic force microscopy (AFM) were respectively used to determine the interfacial elemental composition, the thickness and the morphology of the brushes. The wettability of the polymer brushes was measured using a water contact angle goniometer. Their anti-fog and anti-frost capabilities were determined visually and tested quantitatively by UV-vis spectroscopy. The results indicated that the optical transmittance of substrates modified with superhydrophilic polymer coatings under both hot and cold fogging conditions was very high. Additionally, no visible frost was formed on the superhydrophilic substrates after storage in a freezer at -20 o C for the duration of the experiment. These results convincingly demonstrated that the resistance of the modified substrates to fogging and frosting is strongly correlated to the surface wettability. Moreover, there is no considerable difference in the performance of pSBMA and pSBVI polymer brushes, but the former is preferred because SBMA monomer is commercially available and requires short polymerization time to obtain superhydrophilicity.

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“…But also zwitterionic polymers, such as poly(sulfobetaine methacrylate) (PSBMA), have been found to provide non‐fouling properties. Polymers incorporating zwitterionic moieties, for example, phosphorylcholine and carboxybetaine are excellent candidates for the creation of antifouling surfaces due to their anionic and cationic terminal groups, which form a strong hydration layer as an effect of the solvation of the charged groups …”

Section: Introductionmentioning

confidence: 99%

Investigation of Antifouling Properties of Surfaces Featuring Zwitterionic α‐Aminophosphonic Acid Moieties

Wagner

Zimmermann

Heisig

et al. 2015

Macromolecular Bioscience

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Zwitterionic thin films containing α-amino phosphonic acid moieties were successfully introduced on silicon surfaces and their antifouling properties were investigated. Initially, the substrates were modified with a hybrid polymer, composed of poly(methylsilsesquioxane) (PMSSQ) and poly(4-vinyl benzaldehyde) (PStCHO). Next, a Kabachnik-Fields post-polymerization modification (sur-KF-PMR) of the functionalized aldehyde surfaces was conducted with different amines and dialkyl phosphonates. After subsequent deprotection reaction of dialkyl phosphonates, the obtained zwitterionic surfaces were characterized by various techniques and we found excellent antifouling properties of the resulting films.

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One-Step Dip Coating of Zwitterionic Sulfobetaine Polymers on Hydrophobic and Hydrophilic Surfaces

Cited by 125 publications

References 42 publications

Simple Coatings to Render Polystyrene Protein Resistant

Simple Coatings to Render Polystyrene Protein Resistant

Zwitterionic polymer brush coatings with excellent anti-fog and anti-frost properties

Investigation of Antifouling Properties of Surfaces Featuring Zwitterionic α‐Aminophosphonic Acid Moieties

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