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Scanning Ion Conductance Microscopy: Surface Charge Effects on Electroosmotic Flow Delivery from a Nanopipette

James Teahan, David Perry, Baoping Chen, Ian J. McPherson, Gabriel N. Meloni, Patrick R. Unwin

2021Analytical Chemistry21 citationsDOIOpen Access PDF

Abstract

Scanning ion conductance microscopy (SICM) is a powerful and versatile technique that allows an increasingly wide range of interfacial properties and processes to be studied. SICM employs a nanopipette tip that contains electrolyte solution and a quasi-reference counter electrode (QRCE), to which a potential is applied with respect to a QRCE in a bathing solution, in which the tip is placed. The work herein considers the potential-controlled delivery of uncharged electroactive molecules (solute) from an SICM tip to a working electrode substrate to determine the effect of the substrate on electroosmotic flow (EOF). Specifically, the local delivery of hydroquinone from the tip to a carbon fiber ultramicroelectrode (CF UME) provides a means of quantifying the rate of mass transport from the nanopipette and mapping electroactivity via the CF UME current response for hydroquinone oxidation to benzoquinone. EOF, and therefore species delivery, has a particularly strong dependence on the charge of the substrate surface at close nanopipette-substrate surface separations, with implications for retaining neutral solute within the tip predelivery and for the delivery process itself, both controlled via the applied tip potential. Finite element method (FEM) simulations of mass transport and reactivity are used to explain the experimental observations and identify the nature of EOF, including unusual flow patterns under certain conditions. The combination of experimental results with FEM simulations provides new insights on mass transport in SICM that will enhance quantitative applications and enable new possibilities for the use of nanopipettes for local delivery.

Topics & Concepts

ChemistryUltramicroelectrodeSubstrate (aquarium)ElectrolyteScanning electrochemical microscopyElectrodeConductanceScanning ion-conductance microscopyAnalytical Chemistry (journal)NanotechnologyIon currentHydroquinoneElectro-osmosisChemical physicsIonChemical engineeringElectrochemistryScanning electron microscopeCyclic voltammetryChromatographyMaterials scienceComposite materialElectrophoresisPhysical chemistryGeologyScanning confocal electron microscopyCombinatoricsOceanographyEngineeringMathematicsOrganic chemistryElectrochemical Analysis and ApplicationsAnalytical Chemistry and SensorsForce Microscopy Techniques and Applications