Nanoscience is a booming field incorporating some of the most fundamental questions
concerning structure, function, and applications. The cutting-edge research in nanoscience …

Abstract Atomic Force Microscopy-Scanning Electrochemical Microscopy (AFM-SECM) has
evolved to be a powerful tool for simultaneous topographical-electrochemical …

Ascertaining the function of in-plane intrinsic defects and edge atoms is necessary for
develo** efficient low-dimensional photocatalysts. We report the wireless photocatalytic …

Surfaces and interfaces, of both practical and fundamental interest, have long been
recognized to be complex, yet while there are many microscopy and spectroscopy methods …

Semiconductor structures (for example, films, wires, particles) used in photoelectrochemical
devices are often decorated with nanoparticles that catalyse fuel-forming reactions …

Solar water splitting provides a mechanism to convert and store solar energy in the form of
stable chemical bonds. Water-splitting systems often include semiconductor photoanodes …

Heterogeneous electrochemical phenomena, such as (photo) electrochemical water splitting
to generate hydrogen using semiconductors and/or electrocatalysts, are driven by the …

Nickel (oxy) hydroxide-based (NiO x H y) materials are widely used for energy storage and
conversion devices. Understanding dynamic processes at the solid–liquid interface of nickel …

Oxide/(oxy) hydroxide overlayers such as cobalt (oxy) hydroxide phosphate (CoPi) enhance
the performance of BiVO4 water-spitting photoanodes, but the mechanism of this …

Low dimensional materials exhibit distinct properties compared to their bulk counterparts. A
plethora of examples have been demonstrated in two-dimensional (2-D) materials, including …