Nanostructured catalysts incorporating supported metal atoms or small clusters of defined
size and chemical composition attract considerable attention because of their potential to …

Chemically doped graphene materials are fascinating because these have different
desirable attributes with possible synergy. The inert and gapless nature of graphene can be …

Recent advances in scanning transmission electron microscopy (STEM) instrumentation
have made it possible to focus electron beams with sub-atomic precision and to identify the …

The direct manipulation of individual atoms in materials using scanning probe microscopy
has been a seminal achievement of nanotechnology. Recent advances in imaging …

Manipulation and structural modifications of 2D materials for nanoelectronic and nanofluidic
applications remain obstacles to their industrial‐scale implementation. Here, it is …

Building materials from the atom up is the pinnacle of materials fabrication. Until recently the
only platform that offered single‐atom manipulation was scanning tunneling microscopy …

There are growing interests in metal‐free heteroatom‐doped carbons for electrochemical
CO2 reduction. Previous studies extensively focus on the effect of N‐doping, and their …

Incorporating heteroatoms into the graphene lattice may be used to tailor its electronic,
mechanical and chemical properties, although directly observed substitutions have thus far …

Two-dimensional (2D) materials are at the heart of many novel devices due to their unique
and often superior properties. For simplicity, 2D materials are often assumed to exist in their …

Atomic engineering is envisioned to involve selectively inducing the desired dynamics of
single atoms and combining these steps for larger-scale assemblies. Here, we focus on the …