Journal
CURRENT OPINION IN ELECTROCHEMISTRY
Volume 37, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.coelec.2022.101195
Keywords
Nanomaterials; Stochastic collision; Current transient; Mechanism; Kinetics; Electrical double layer; Electron transfer; Mass transport; Catalyst-support interaction; Surface potential
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In this article, we discuss the capabilities of nanoimpact electrochemistry for studying properties of colloidal nanoparticles, electrocatalytic activity, and particle reactivity at a single entity level. These capabilities provide a better understanding of the role of solid/liquid interfaces in various chemical and biological systems. The article reviews the effects of particle properties and particle-electrode interactions on electrochemical signals and resulting scientific insights.
Here, we discuss the capabilities of nanoimpact electrochemistry for studying properties of colloidal nanoparticles, electrocatalytic activity and particle reactivity at a single entity level, to gain better understanding of solid/liquid interfaces, which play a key role in various chemical and biological systems. The effect of particle properties like size, shape or composition, and particle-electrode interactions on the electrochemical signals and the resulting scientific insights are reviewed.
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