Surface charge density and distribution play an important role in almost all interfacial
processes, influencing, for example, adsorption, colloidal stability, functional material …

Fundamental mechanisms of energy storage, corrosion, sensing, and multiple biological
functionalities are directly coupled to electrical processes and ionic dynamics at solid–liquid …

We present what is, to our knowledge, the first experimental demonstration of dielectric
constant measurement and quantification of supported lipid bilayers in electrolyte solutions …

The presence of mobile ions complicates the implementation of voltage-modulated scanning
probe microscopy techniques such as Kelvin probe force microscopy (KPFM). Overcoming …

Charge transport in electrolyte‐gated organic field‐effect transistors (EGOFETs) is governed
by the microstructural property of the semiconducting thin film that is in direct contact with the …

Kelvin probe force microscopy (KPFM) has provided deep insights into the local electronic,
ionic and electrochemical functionalities in a broad range of materials and devices. In …

Probing nanoscale electrical properties of organic semiconducting materials at the interface
with an electrolyte solution under externally applied voltages is key in the field of organic …

The dynamics of individual solvated ions near solid surfaces is the driving force behind
numerous interfacial processes, from electrochemical reactions to charge storage, mineral …

Mapping the biochemical composition of eukaryotic cells without the use of exogenous
labels is a long‐sought objective in cell biology. Recently, it has been shown that …

Conventional closed loop-Kelvin probe force microscopy (KPFM) has emerged as a
powerful technique for probing electric and transport phenomena at the solid–gas interface …