To acquire a deeper understanding of electrochemical systems requires techniques that
address nanoscale aspects of electrochemistry, inter alia, the detection and analysis of …

Scanning ion conductance microscopy (SICM) has emerged as a versatile tool for studies of
interfaces in biology and materials science with notable utility in biophysical and …

Passive films are essential for the longevity of metals and alloys in corrosive environments.
A great deal of research has been devoted to understanding and characterizing passive …

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

Nucleic acid-based biomolecular self-assembly enables the creation of versatile functional
architectures. Electrostatic screening of the negative charges of nucleic acids is essential for …

Peripheral nerve regeneration with large defects needs innovative design of nerve guidance
conduits (NGCs) which possess anisotropic guidance, electrical induction and right …

The surface-assisted hierarchical self-assembly of DNA origami lattices represents a
versatile and straightforward method for the organization of functional nanoscale objects …

The latest contributions of scanning ion conductance microscopy (SICM) to current research
in life sciences are reviewed. The continued efforts toward technical improvements in SICM …

Unique surface properties of aluminosilicate clay minerals arise from anisotropic distribution
of surface charge across their layered structures. Yet, a molecular-level understanding of …

We report that user‐defined DNA nanostructures, such as two‐dimensional (2D) origamis
and nanogrids, undergo a rapid higher‐order folding transition, referred to as supra‐folding …