Testa Analytical Solutions e.K announces a comprehensive new applications study that explains why making Dynamic Light Scattering (DLS) measurements in concentrated solutions is difficult.
Dynamic Light Scattering is a widely used and effective technique for measuring the hydrodynamic size of common materials including colloids, nanoparticles, proteins, and polymers.
Despite the versatility of this technique, the study discusses two major factors that impact the ability to measure particle size at high concentrations: multiple scattering and interparticle interactions.
The authors of the study conclude that even in the absence of multiple scattering, measurements made in the semi-dilute region do not necessarily reveal particle size, and thus great care must be used to interpret such results. It is also demonstrated that serial dilution can be used to identify the region in which the sample is sufficiently dilute to reliably calculate particle size directly.
The NanoBrook Omni particle sizer and zeta potential analyzer from Testa Analytical provides users with fast, routine, sub-micron measurements of size and zeta potential for proteins, polymers and colloidal dispersion applications. Based on the principles of Dynamic Light Scattering (DLS) for particle sizing and distribution, and on Doppler
velocimetry (electrophoretic light scattering, ELS) for zeta potential, most measurements only take a minute or two. The instrument also includes Phase Analysis Light Scattering (PALS) measurements for samples with low mobilities such as saline and PBS.
For a copy of the new application study please visit https://www.testa-analytical.
Testa Analytical Solutions e.K. is a company dedicated to supplying the best possible instrumental solutions for characterization of polymers, particles, nanomaterials and proteins. Drawing upon over 30 years’ experience of technologies serving these markets, the staff at Testa Analytical are happy to share their knowledge with researchers worldwide to help provide them with a working solution for even the most demanding applications.