Small-angle X-ray scattering – analyzing size and structure of nanoparticulate systems
Small-angle X-ray scattering (SAXS) is an analytical method used to determine the structure of nano-sized particle systems in terms of averaged particle sizes or shapes. In a SAXS experiment the scattering signal differs for particles of different sizes and therefore provides results regarding their size and size distribution. Furthermore, when all particles have the same size the scattering pattern is characteristic of their shape, i.e. SAXS can differentiate between spherical, cylindrical, and prolate/flat particles.
The possibility to evaluate the size and shape of various particles makes SAXS an important analysis tool in the field of materials, both in academic research and industrial applications. The determination of the nanoscopic structure of particulate systems provides valuable information on their macroscopic properties. Typical materials of interest are quantum dots, catalyst systems, surfactants, colloidal solutions, and many more.
The webinar content will be:
- Application of SAXS for analysis of nanoparticulate systems
- Selected application examples to show the potential of SAXS
- Beginners to experts in small-angle X-ray scattering
- Anyone interested in the characterization of nanostructured materials
- Anyone interested in structure determination of colloidal samples
2021-03-24, 09:00 - 09:45 (CET UTC+01:00)
Trainer: Heiner Santner, PhD
Heiner Santner (PhD) has completed a PhD in technical chemistry from Graz University of Technology and held a postdoctoral position at ICMAB - Barcelona with a research focus on synthesis and characterization of energy storage devices by X-ray scattering methods. Since 2006 he is a product specialist for small- and wide-angle X-ray scattering instrumentation at Anton Paar and has developed a deep expertise in SAXS/WAXS/GISAXS instrumentation and its application to the analysis of nano-structured materials like colloidal systems and thin films.
Get free access now!
Simply fill out the form below to receive free access to tools and restricted content.