The nanoscale control afforded by scanning probe microscopes has prompted the
development of a wide variety of scanning-probe-based patterning methods. Some of these …

Machine learning and artificial intelligence (ML/AI) are rapidly becoming an indispensable
part of physics research, with domain applications ranging from theory and materials …

High-throughput and high-accuracy nanofabrication methods are required for the ever-
increasing demand for nanoelectronics, high-density data storage devices, nanophotonics …

Using hypothesis-learning-driven automated scanning probe microscopy (SPM), we explore
the bias-induced transformations that underpin the functionality of broad classes of devices …

Force microscopy enables a variety of approaches to manipulate and/or modify surfaces.
Few of those methods have evolved into advanced probe-based lithographies. Oxidation …

While the influence of intramolecular electric fields is a known feature in enzymes, the use of
oriented external electric fields (EEF) to enhance or inhibit molecular reactivity is a …

Atomistic and nanometer scale mechanisms of electrochemical reactions and ionic flows in
solids in the nanometer–micron range persist as terra incognito in modern science. While …

Cancer and antimicrobial resistance to antibiotics are two of the most worrying healthcare
concerns that humanity is facing nowadays. Some of the most promising solutions for these …

Progress in the development and optimization of energy storage and conversion materials
necessitates understanding their ionic and electrochemical functionality on the nanometer …

Ionic conduction of metal thiophosphates (MTPs) is attracting growing attention for promising
applications in electrochemical storage and tunable physical properties. Especially, metal …