The technology succeeds in making visible information on the atomic-scale 3D structure of amorphous carbon, based on measured X-ray scattering data. By making available detailed information on the ...

Advanced 3D rendering algorithms provide detailed, animated renderings of the design and construction of carbon nanotubes. iNanotube 1.1 for iOS, an dducation app that graphically instructs users ...

The atomic structure of defects in low-dimensional materials is of general interest. Vacancies, topological defects and edge structures have been studied in 2D materials and are presumed to govern ...

A UCLA-led study in the journal Nature reports on the first-ever determination of the 3D atomic structure of an amorphous solid -- in this case, a material called metallic glass.

Although the overall atomic structure of a nanoscale crystal is in principle accessible by modern transmission electron microscopy, the precise determination of its surface structure is an ...

The technology succeeds in making visible information on the atomic-scale 3D structure of amorphous carbon, based on measured X-ray scattering data. By making available detailed information on the ...

TXS-RMC is a powerful technology that clarifies the atomic-scale 3D structure of amorphous carbon1. TXS-RMC facilitates deeper understanding of the structure and function of not only amorphous ...

TXS-RMC is a powerful technology that clarifies the atomic-scale 3D structure of amorphous carbon. The X-ray Laboratory of Rigaku Corporation, a Rigaku Holdings Group company and a global solution ...

TXS-RMC is a powerful technology that clarifies the atomic-scale 3D structure of amorphous carbon. ... the atomic-scale structure of amorphous materials could only be handled qualitatively, ...