Guanghui Wang scite author profile

Surfaces containing poly(ethylene oxide) (PEO) are interesting biomaterials because they exhibit low degrees of protein adsorption and cell adhesion. In this study different molecular weight PEO molecules were covalently attached to poly(ethylene terephthalate) (PET) films using cyanuric chloride chemistry. Prior to the PEO immobilization, amino groups were introduced onto the PET films by exposing them to an allylamine plasma glow discharge. The amino groups on the PET film were next activated with cyanuric chloride and then reacted with bis-amino PEO. The samples were characterized by scanning electron microscopy, water contact angle measurements, gravimetric analysis, and electron spectroscopy for chemical analysis (ESCA). The adsorption of 125I-labeled baboon fibrinogen and bovine serum albumin was studied from buffer solutions. Gravimetric analysis indicated that the films grafted with the low-molecular-weight PEO contained many more PEO molecules than the surfaces grafted with higher-molecular-weight PEO. The high-molecular-weight PEO surfaces, however, exhibited greater wettability (lower water contact angles) and less protein adsorption than the low-molecular-weight PEO surfaces. Adsorption of albumin and fibrinogen to the PEO surfaces decreased with increasing PEO molecular weight up to 3500. A further increase in molecular weight resulted in only slight decreases in protein adsorption. Protein adsorption studies as a function of buffer ionic strength suggest that there may be an ionic interaction between the protein and the allylamine surface. The trends in protein adsorption together with the water contact angle results and the gravimetric analysis suggest that a kind of "cooperative" water structuring around the larger PEO molecules may create an "excluded volume" of the hydrated polymer coils. This may be an important factor contributing to the observed low protein adsorption behavior.

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Immobilization of poly(ethylene oxide) on poly(ethylene terephthalate) using a plasma polymerization process

Gombotz

Wang

Hoffman

1989

J of Applied Polymer Sci

134

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SynopsisPoly(ethy1ene oxide) (PEO) has been covalently immobilized on poly(ethy1ene terephthalate) (PET) films using a radio frequency glow discharge polymer deposition process, followed by chemical coupling. Amino or hydroxyl groups were introduced onto the surface of the PET by exposing the films to allylamine and ally1 alcohol plasmas. These functional groups were activated with cyanuric chloride, and then they were reacted with PEO. ESCA and water contact angle studies were used to characterize the surfaces of these films during the different stages of the reaction. The films containing the higher molecular weight PEO exhibited an increase in the -C-0-peak of the C,, ESCA spectrum and an increase in oxygen content on the f i l m surfaces. Increasing the molecular weight of the PEO attached to the PET also resulted in an increased wettability of the films.

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Protein Adsorption to and Elution from Polyether Surfaces

Gombotz

Wang

Horbett

et al. 1992

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Influence of moisture content and hammer mill screen size on the physical quality of barley, oat, canola and wheat straw briquettes

Guo

Tabil

Wang

et al. 2016

Biomass and Bioenergy

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Guanghui Wang

Protein adsorption to poly(ethylene oxide) surfaces

Immobilization of poly(ethylene oxide) on poly(ethylene terephthalate) using a plasma polymerization process

Protein Adsorption to and Elution from Polyether Surfaces

Influence of moisture content and hammer mill screen size on the physical quality of barley, oat, canola and wheat straw briquettes

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