Modulation of substrate van der Waals forces using varying thicknesses of polymer overlayers

[Display omitted] Thin polymeric coatings are commonly used for altering surface properties and modulating the interfacial performance of materials. Possible contributions from the substrate to the interfacial forces and effects are, however, usually ignored and are not well understood, nor is it es...

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Published inJournal of colloid and interface science Vol. 580; pp. 690 - 699
Main Authors Wang, Hongfang, Evans, Drew, Voelcker, Nicolas H., Griesser, Hans J., Meagher, Laurence
Format Journal Article
LanguageEnglish
Published Elsevier Inc 15.11.2020
Subjects
Coating thickness
Colloid-probe AFM
Hamaker constant
Interfacial forces
Lifshitz theory
Plasma polymer
Polymer coating
Substrate effects
Van der Waals force
Polymer coating
Plasma polymer
Coating thickness
Hamaker constant
Colloid-probe AFM
Interfacial forces
Lifshitz theory
Van der Waals force
Substrate effects
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Abstract [Display omitted] Thin polymeric coatings are commonly used for altering surface properties and modulating the interfacial performance of materials. Possible contributions from the substrate to the interfacial forces and effects are, however, usually ignored and are not well understood, nor is it established how the coating thickness modulates and eventually eliminates contributions from substrates to the van der Waals (vdW) interfacial force. In this study we quantified, by colloid-probe atomic force microscope (AFM) and by theoretical calculations, the interfacial vdW contributions from substrates acting through ethanol plasma polymer (EtOHpp) coatings of a range of thicknesses on Au and Si bulk materials. In approach force curves against EtOHpp-coated Au substrates the magnitude of the vdW force decreased as the EtOHpp coating thickness increased to 18 nm and then plateaued with further increases in coating thickness, providing direct evidence for a contribution to the total interfacial vdW force from the Au substrate acting through thin coatings. The experimental observations accord with theoretical calculations of the thickness dependence of Hamaker coefficients derived from rigorous simulation using the Lifshitz theory. In addition, the measured forces agree well with theoretical predictions including correction for finite roughness. Thus, our experimental and theoretical results establish how the thickness of polymer thin film coatings modulates the total interfacial vdW force and how this can be used to tune the net vdW force so as to either contain a large substrate contribution or arise predominantly from the polymeric overlayer. Our findings enable rational design of coating thickness to tailor interfacial interactions and material performance.
AbstractList [Display omitted] Thin polymeric coatings are commonly used for altering surface properties and modulating the interfacial performance of materials. Possible contributions from the substrate to the interfacial forces and effects are, however, usually ignored and are not well understood, nor is it established how the coating thickness modulates and eventually eliminates contributions from substrates to the van der Waals (vdW) interfacial force. In this study we quantified, by colloid-probe atomic force microscope (AFM) and by theoretical calculations, the interfacial vdW contributions from substrates acting through ethanol plasma polymer (EtOHpp) coatings of a range of thicknesses on Au and Si bulk materials. In approach force curves against EtOHpp-coated Au substrates the magnitude of the vdW force decreased as the EtOHpp coating thickness increased to 18 nm and then plateaued with further increases in coating thickness, providing direct evidence for a contribution to the total interfacial vdW force from the Au substrate acting through thin coatings. The experimental observations accord with theoretical calculations of the thickness dependence of Hamaker coefficients derived from rigorous simulation using the Lifshitz theory. In addition, the measured forces agree well with theoretical predictions including correction for finite roughness. Thus, our experimental and theoretical results establish how the thickness of polymer thin film coatings modulates the total interfacial vdW force and how this can be used to tune the net vdW force so as to either contain a large substrate contribution or arise predominantly from the polymeric overlayer. Our findings enable rational design of coating thickness to tailor interfacial interactions and material performance.
Author Wang, Hongfang
Evans, Drew
Griesser, Hans J.
Meagher, Laurence
Voelcker, Nicolas H.
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CitedBy_id crossref_primary_10_1021_acsapm_3c00230
crossref_primary_10_1021_acs_macromol_2c01123
crossref_primary_10_1002_macp_202200375
crossref_primary_10_1007_s42452_021_04655_9
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Keywords Polymer coating
Plasma polymer
Coating thickness
Hamaker constant
Colloid-probe AFM
Interfacial forces
Lifshitz theory
Van der Waals force
Substrate effects
Language English
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Snippet [Display omitted] Thin polymeric coatings are commonly used for altering surface properties and modulating the interfacial performance of materials. Possible...
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SubjectTerms Coating thickness
Colloid-probe AFM
Hamaker constant
Interfacial forces
Lifshitz theory
Plasma polymer
Polymer coating
Substrate effects
Van der Waals force
Title Modulation of substrate van der Waals forces using varying thicknesses of polymer overlayers
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