TXS-RMC facilitates deeper understanding of the structure and function of not only amorphous materials but also crystalline materials. It is also expected to contribute to improved performance in battery devices and accelerating the development of advanced functional materials for the transmission of gases, fluids and electricity.

“Amorphous” is defined as, of a material, possessing an irregular arrangement of atoms or molecules, rather than a regular arrangement as in the case of a crystal.

Previously, the atomic-scale structure of amorphous materials could only be handled qualitatively, or predicted/estimated using molecular dynamics (MD). Use of the 3D structural visualization technology of TXS-RMC enables accurate information to be obtained. Expected applications include advancement of understanding of physical properties and prediction of features in connection with the atomic-scale structures.

TXS-RMC is a technology that responds to strong demand in the development of advanced functional materials for ways of determining whether a given material possesses intended structure, properties or characteristics. Another major breakthrough with TXS-RMC is its broadening of the range of materials to which X-ray analysis of atomic-scale structure can be applied, encompassing not only crystals but also amorphous materials.