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Effect of Solid Substrates on the Molecular Structure of Ionic Liquid Nanofilms

Bingchen Wang, Lei Li

2021Langmuir10 citationsDOI

Abstract

Fundamental understandings of the interfacial molecular structure of solid-confined ionic liquids (ILs) have significant impacts on the development of many cutting-edge applications. Among the extensive studies on the molecular structure at the IL/solid interface, direct observation of a double-layering quantized growth of [Cnmim][FAP] on mica was recently reported. In the current work, the atomic force microscopy (AFM) results directly show that the growths of [Bmim][FAP] nanofilms on silica and amorphous carbon are different from the double-layering growth on mica. The growth of [Bmim][FAP] nanofilms on silica is dominated by the aggregation of the IL molecules, which can be attributed to the inadequate negative charging of the silica surface resulting in a weak electrostatic interaction between silica and the IL cation. [Bmim][FAP] on amorphous carbon shows a fairly smooth film for the thinner nanofilms, which can be attributed to the π–π+ parallel stacking between the cation imidazolium ring and the randomly distributed sp2 carbon on the amorphous carbon surface. Our findings highlight the effect of different IL/solid interactions, among the several competing interactions at the interface, on the resulting molecular arrangements of various IL.

Topics & Concepts

MicaStackingAmorphous solidCarbon fibersIonic liquidAmorphous carbonLayeringMaterials scienceIonic bondingAmorphous silicaMoleculeChemical engineeringChemical physicsAtomic force microscopyNanotechnologyMolecular dynamicsChemistryIonCrystallographyComputational chemistryOrganic chemistryComposite materialCatalysisEngineeringBotanyComposite numberBiologyIonic liquids properties and applicationsElectrochemical Analysis and ApplicationsForce Microscopy Techniques and Applications
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