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Molecular behavior of silicone adhesive at buried polymer interface studied by molecular dynamics simulation and sum frequency generation vibrational spectroscopy

Yuchen Wu, Ting Lin, Elizabeth Santos, Dongchan Ahn, Ryan L. Marson, Pranab Sarker, Xiaoyun Chen, F. Gubbels, N. Shephard, Carol Mohler, Tao Wei, Tzu‐Chi Kuo, Zhan Chen

2024Soft Matter15 citationsDOIOpen Access PDF

Abstract

Silicones have excellent material properties and are used extensively in many applications, ranging from adhesives and lubricants to electrical insulation. To ensure strong adhesion of silicone adhesives to a wide variety of substrates, silane-based adhesion promotors are typically blended into the silicone adhesive formulation. However, little is known at the molecular level about the true silane adhesion promotion mechanism, which limits the ability to develop even more effective adhesion promoters. To understand the adhesion promotion mechanism of silane molecules at the molecular level, this study has used sum frequency generation vibrational spectroscopy (SFG) to determine the behavior of (3-glycidoxypropyl)trimethoxy silane (γ-GPS) at the buried interface between poly(ethylene terephthalate) (PET) and a bulk silicone adhesive. To complement and extend the SFG results, atomistic molecular dynamics (MD) simulations were applied to investigate molecular behavior and interfacial interaction of γ-GPS at the silicone/PET interface. Free energy computations were used to study the γ-GPS interaction in the sample system and determine the γ-GPS interfacial segregation mechanism. Both experiments and simulations consistently show that γ-GPS molecules prefer to segregate at the interface between PET and PDMS. The methoxy groups on γ-GPS molecules orient toward the PDMS polymer phase. The consistent picture of interfacial structure emerging from both simulation and experiment provides enhanced insight on how γ-GPS behaves in the silicone - PET system and illustrates why γ-GPS could improve the adhesion of silicone adhesive, leading to further understanding of silicone adhesion mechanisms useful in the design of silicone adhesives with improved performance.

Topics & Concepts

AdhesiveSiliconeMolecular dynamicsMaterials sciencePolymerSpectroscopySum frequency generation spectroscopyMolecular vibrationDynamics (music)Chemical physicsSum-frequency generationMolecular physicsComposite materialMoleculeChemistryOpticsComputational chemistryPhysicsOrganic chemistryAcousticsNonlinear opticsLayer (electronics)Quantum mechanicsLaserForce Microscopy Techniques and ApplicationsAnalytical Chemistry and SensorsMolecular Junctions and Nanostructures