Atomic level analysis of biomolecules by the scanning atom probe

## Superconducing single crystals grown in an crucible using a high-pressure furnace (argon HgBa 2 CuO 4'x Al 2 O 3 pressure = 10.1 kbar) show a clean and smooth surface. Investigations by scanning tunnelling (STM), scanning force (SFM) and friction force (FFM) microscopies reveal an atomically Ñat

We study the low temperature electrical characteristics of planar, highly phosphorus-doped nanodots. The dots are defined by lithographically patterning an atomically flat, hydrogenated Si(1 0 0):H surface using a scanning-tunneling-microscope (STM), phosphorus d-doping and low temperature molecular

Atom probe tomography (APT) is used to characterise the distributions of rhenium in a binary Ni-Re alloy and the nickel-based single-crystal CMSX-4 superalloy. A purpose-built algorithm is developed to quantify the size distribution of solute clusters, and applied to the APT datasets to critique the

While image quality from instruments such as electron microscopes, light microscopes, and confocal laser scanning microscopes is mostly influenced by the alignment of optical train components, the atomic force microscope differs in that image quality is highly dependent upon a consumable component,