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Probing Specific Adsorption of Electrolytes at Kaolinite–Aqueous Interfaces by Atomic Force Microscopy

Jing Chang, Bo Liu, James S. Grundy, Huaizhi Shao, Rogério Manica, Zhen Li, Qingxia Liu, Zhenghe Xu

2021The Journal of Physical Chemistry Letters18 citationsDOI

Abstract

Adsorption of electrolytes (ions) at solid-liquid interfaces alters the physical and chemical properties of materials and hence plays a critical role in manufacturing and processing of nanomaterials featuring large surface or interfacial areas of desired structures and morphology. Many experiments and theoretical calculations using various electrical double layer (EDL) models have been conducted to understand how and where ions adsorb at charged surfaces in a liquid. However, conclusions from previous research remain inconclusive because of model-dependent approaches to studying ion adsorption at diverse solid-liquid interfaces. In this study, atomic force microscopy is used to image in liquids the surface lattice structure of two kaolinite basal planes in the presence and absence of monovalent and divalent cations. Distinct adsorption of ions through different mechanisms (such as electrostatic attraction and specific adsorption) is identified through atomic resolution imaging without the assumption of an EDL structure.

Topics & Concepts

AdsorptionIonChemical physicsDivalentKaoliniteMaterials scienceAtomic force microscopyElectrolyteAqueous solutionNanomaterialsMonolayerChemical engineeringChemistryNanotechnologyPhysical chemistryOrganic chemistryMetallurgyEngineeringElectrodeElectrostatics and Colloid InteractionsGeophysical and Geoelectrical MethodsElectrical and Bioimpedance Tomography
Probing Specific Adsorption of Electrolytes at Kaolinite–Aqueous Interfaces by Atomic Force Microscopy | Litcius