The ubiquity of aqueous solutions in contact with charged surfaces and the realization that
the molecular-level details of water–surface interactions often determine interfacial functions …

Interfacial reactions drive all elemental cycling on Earth and play pivotal roles in human
activities such as agriculture, water purification, energy production and storage …

Electrocatalysis is central to the production of renewable fuels and high-value commodity
chemicals. The electrolyte and the electrode together determine the catalytic properties of …

All solid materials are created via nucleation. In this evolutionary process, nuclei form in
solution or at interfaces, expand by monomeric growth and oriented attachment, and …

The electric double layer governs the processes of all charged surfaces in aqueous
solutions; however, elucidating the structure of the water molecules is challenging for even …

The chemistry and physics of charged interfaces is regulated by the structure of the electrical
double layer (EDL). Herein we quantify the average thickness of the Stern layer at the silica …

The work investigates the role of interfacial potential in defining antimicrobial propensity of
ZnO nanoparticle (ZnONP) against different Gram positive and Gram negative bacteria …

Second-order nonlinear spectroscopy has proven to be a powerful tool in elucidating key
chemical and structural characteristics at a variety of interfaces. However, the presence of …

Plasmas interacting with liquids enable the generation of a highly reactive interfacial liquid
layer due to a variety of processes driven by plasma-produced electrons, ions, photons, and …

Understanding the collective behavior of ions at charged surfaces is of paramount
importance for geological and electrochemical processes. Ions screen the surface charge …