Unveiling colloidal nanoparticle properties and interactions at a single entity level

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.

Automated summary

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.