The Delsa Nano C provides accurate size measurements in the range from 0.6 nm to 7 μm with sample concentration ranging from 0.001% to 40%. Offering an excellent degree of accuracy, resolution and reproducibility, the Delsa Nano C has been designed to simplify submicron particle size and zeta potential analyses. The Delsa Nano C utilizes Photon Correlation Spectroscopy and Electrophoretic Light Scattering techniques to determine particle size and zeta potential of materials. The particle sizing tests can be performed on a Delsa Nano C Nanoparticle Size and Zeta Potential Analyzer available in Ebatco’s Nano Analytical and Testing Laboratory (NAT Lab). The diffusion coefficient is determined by fitting the ACF using the Cumulants method from which the mean size is obtained using the Stokes-Einstein equation. The intensity fluctuations are collected as photon counts and correlated to generate the auto correlation function (ACF). Since the diffusion rate of particles is determined by their size, information about their size is contained in the rate of fluctuation of the scattered light. The scattered light is collected at a chosen angle, and is measured by a highly sensitive detector. The particles scatter the light, producing fluctuations in the scattering intensity as a function of time. As the particles of interest diffuse through the sample cell due to Brownian motion, an incident beam of laser light illuminates the particles. The coefficient is determined by accurately measuring the light scattering intensity of the particles as a function of time. Photon Correlation Spectroscopy (PCS), sometimes also referred as dynamic light scattering, is a technique used to determine the diffusion coefficient of small particles in a liquid. Where D is the diffusion constant, k B the Boltzmann’s constant, T the absolute temperature, ƞ 0 the viscosity, d the spherical particle diameter. Nanoparticle Sizing through Dynamic Light Scattering High Concentration Cell Sample Requirements Instrument: Beckman Coulter Delsa Nano C Particle Analyzer
#DYNAMIC LIGHT SCATTERING SIZE DISTRIBUTION BY NUMBER PDF#
Nanoparticle Sizing through Dynamic Light Scattering, PDF Particle size analysis of a particle in solutionįor more information please read our application notes: Photon correlation spectroscopy is a proven technique for particle size analysis of sub nano meter to a few micron particles. Photon Correlation Spectroscopy (PCS), also referred to as dynamic light scattering, is a technique used to determine the diffusion coefficient of small particles in a liquid. Where D is the diffusion constant, kB the Boltzmann’s constant, T the absolute temperature, ƞ0 the viscosity, d the spherical particle diameter. The diffusion coefficient, D, is inversely proportional to the particle size according to the Stokes-Einstein equation: This motion causes the particles to diffuse through the medium. Particles suspended in liquids are in Brownian motion due to random collisions with solvent molecules. Contact Stylus Surface Roughness AnalysisĮxpress Property Mapping through Accelerated NanoindentationĪlloy Composition and Phase Identification