Determination of the acid-base properties of metal oxide films and of polymers by contact angle measurements

The surface isoelectric point for native air-formed oxide films on various metals has been determined by measurement of contact angles at the hexadecane/ aqueous solution interface as a function of the pH of the aqueous phase. Application of Young's equation, the Gibbs equation, and surface equ...

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Bibliographic Details
Published inJournal of adhesion science and technology Vol. 13; no. 12; pp. 1415 - 1436
Main Authors McCafferty, E., Wightman, J.P.
Format Journal Article Conference Proceeding
LanguageEnglish
Published Leiden Taylor & Francis Group 01.01.1999
Brill
Subjects
acid-base
Applied sciences
Contact angles
Exact sciences and technology
isoelectric point
Organic polymers
oxide films
peel strength
Physicochemistry of polymers
polymers
Properties and characterization
Surface properties
van Oss and Good method
Adhesivity
Film
Methyl methacrylate polymer
Contact angle
Metal Oxides
Experimental study
Vinyl acetate polymer
Peel strength
Acidobasicity
Surface properties
Measurement method
Polyvinyl chloride
Surface energy
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Summary:The surface isoelectric point for native air-formed oxide films on various metals has been determined by measurement of contact angles at the hexadecane/ aqueous solution interface as a function of the pH of the aqueous phase. Application of Young's equation, the Gibbs equation, and surface equilibria conditions for hydroxylated oxide films leads to a mathematical expression which shows that the contact angle goes though a maximum at the isoelectric point of the oxide. The experimentally determined values for the oxide films on aluminum, chromium, and tantalum are within one to three pH units of the reported isoelectric points for the corresponding bulk oxide powders. The surface isoelectric point of an oxide-covered Ta-implanted A1 surface lies between that of Al 2 O 3 and Ta 2 O 5 . The acid-base properties of various polymers, including a commercially available pressure-sensitive adhesive, were determined by measuring the contributions γ S + and γ S - to the solid surface free energy using the contact angle approach of van Oss and Good. Adhesion measurements for a pressure-sensitive adhesive having a positive surface charge show that the peel strength is greatest when the metal substrate has a surface oxide film of basic character.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
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ISSN:0169-4243
1568-5616
DOI:10.1163/156856199X00569