2D inorganic materials are now breeding a wide‐ranging series of energy applications
including catalysis, electrochemical activity, thermoelectricity and spin electronic devices …

The design and fabrication of 2D nano-porous architectures with controllable porosity and
pore structure, as well as unique properties at the nanoscale are critical for applications …

The focused ion beam (FIB) is a powerful tool for fabrication, modification, and
characterization of materials down to the nanoscale. Starting with the gallium FIB, which was …

The layered two-dimensional (2D) materials, eg, the well-known graphene, transition metal
dichalcogenides, and topological insulators, have attracted great interest of researchers …

Materials can, in principle, be imaged at the level of individual atoms with aberration-
corrected transmission electron microscopy. However, such resolution can be attained only …

Focused ion beams perfectly suit for patterning two-dimensional (2D) materials, but the
optimization of irradiation parameters requires full microscopic understanding of defect …

Porous graphene (PG) nanosheets have become one of the superstars in the graphene
material family due to their diverse pore structures and unique properties. Their most …

Using the X-ray standing wave method, scanning tunneling microscopy, low energy electron
diffraction, and density functional theory, we precisely determine the lateral and vertical …

Graphene has rapidly become one of the most popular materials for technological
applications and a test material for new condensed matter ideas. This paper reviews the …

Holey graphene (hG), also called graphene nanomesh, is a structural derivative of
graphene. hG is formed by removing a large number of atoms from the graphitic plane to …