Particle & Particle Systems Characterization, Vol.20, No.6, 370-378, 2004
Particle sizes of fumed oxides: A new approach using PCS signals
Fumed oxides produced in gas-phase processes, such as silicas and aluminum oxide, consist of a cluster of aggregated primary particles. The aggregate size of these particles is an important variable in many applications. However, current procedures for measuring particle sizes all assume that the particles have a spherical shape and are thus not truly capable of determining aggregate size. The results of such particle size measurements are consequently called "equivalent spherical diameter" (ESD), but these results vary from method to method. This publication shows that it is feasible to use the number of primary particles per aggregate, rather than the ESD, as a measure for the particle size of clusters of this type. The method is based on dynamic light scattering (photon correlation spectroscopy, PCS), which has proven itself in the analysis of fumed oxides. A numerical simulation based on random, computer-generated model aggregates is used to modify the well-known Stokes-Einstein equation so that the number of primary particles can be determined. feasible to use the number of primary particles per aggregate, rather than the ESD, as a measure for the particle size of clusters of this type. The method is based on dynamic light scattering (photon correlation spectroscopy, PCS), which has proven itself in the analysis of fumed oxides. A numerical simulation based on random, computer-generated model aggregates is used to modify the well-known Stokes-Einstein equation so that the number of primary particles can be determined.