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W2014737619 endingPage "2127" @default.
W2014737619 startingPage "2116" @default.
W2014737619 abstract "An enhancement of wettability of PET foils pretreated hydrolytically by immersing in mild alkaline (NaOH) solutions has been documented by a descending sigmoidal dependence between the interfacial free energy γSL of the PET/water interface and the concentration of NaOH solution cNaOH. An increase in temperature of the NaOH solution below the glass-transition temperature of PET further promotes the hydrophilicity, resulting in a proportional shift of the γSL vs cNaOH dependence. The limiting hydrophilicity of PET is thermodynamically predicted to occur at γSL → 0, corresponding to the advancing water contact angle θa ≈ 50° (for 6% NaOH and 60 °C). The surface roughness due to the partial hydrolytic degradation as well as the weight loss (dissolution) of PET are found to reach a maximum value just when the latter dependence goes through its inflection. Assuming a general parallelism between the interfacial free energy and the dissolution kinetics, we propose the hydrolytically stimulated formation and growth of pits on the PET surface to cause the initial acceleration as well as subsequent retardation of dissolution as cNaOH increases, leading to the S-shaped γSL vs cNaOH dependence with the inflection for a specific cNaOH. Moreover, the zeta potential measured by the streaming current method also attains a maximum at the same specific concentration of NaOH. It would indicate that the largest amount of electric charges is populated via polar carboxyl and hydroxyl groups created by chemical scissions of PET polymer chains when a change in the dissolution rate increases to the utmost. In such a way, partial hydrolysis restricted to the uppermost part of moderately hydrophobic surface of solid PET allowed us to better understand the intermingled role of thermodynamic and physical aspects in surface wettability itself." @default.
W2014737619 created "2016-06-24" @default.
W2014737619 creator A5033329964 @default.
W2014737619 creator A5042042965 @default.
W2014737619 creator A5048973030 @default.
W2014737619 creator A5057058283 @default.
W2014737619 date "2010-06-28" @default.
W2014737619 modified "2023-10-01" @default.
W2014737619 title "Relationship of Surface Hydrophilicity, Charge, and Roughness of PET Foils Stimulated by Incipient Alkaline Hydrolysis" @default.
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W2014737619 doi "https://doi.org/10.1021/am100368v" @default.
W2014737619 hasPublicationYear "2010" @default.
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