Most relevant systems of interest to modern chemists rarely consist of a single phase. Real-
world problems that require a rigorous understanding of chemical reactivity in multiple …

Although the term 'confinement'regularly appears in electrochemical literature, elevated by
continuous progression in the research of nanomaterials and nanostructures, up until today …

Emulsions are critical across a broad spectrum of industries. Unfortunately, emulsification
requires a significant driving force for droplet dispersion. Here, we demonstrate a …

Enzymes are molecules that catalyze reactions critical to life. These catalysts are often
studied in bulk water, where the influence of water volume on reactivity is neglected. Here …

Practically important metal electrodes are usually polycrystalline, comprising surface grains
of many different crystallographic orientations, as well as grain boundaries. In this study …

Copper (Cu) corrosion is a compelling problem in the automotive sector and in oil refinery
and transport, where it is mainly caused by the action of acidic aqueous droplets dispersed …

Miniaturization of analytical instrumentation is paramount to enabling convenient in-field
sensing. The recent thrust in potentiostat miniaturization for electrochemical sensing and …

The ubiquitous Faraday cage, an experimental component particularly essential for
nanoelectrochemical measurements, is responsible for neutralizing noise introduced by …

Conspectus Nanoparticles have witnessed immense development in the past several
decades due to their intriguing physicochemical properties. The modern chemist is …

In this study, we report the new application of single nanodroplet electrochemistry to in situ
monitor the interfacial transfer kinetics of electroactive species across liquid/liquid interface …