Fractionation of nano- and microparticles in a rotating conoidal coiled column

A method for the continuous-flow fractionation of particles in a transverse centrifugal field in a rotating conoidal coiled (RCC) column has been developed. A model of a planetary centrifuge with a conoidal drum of a special construction has been tested. The effects of the rotation and revolution speed of the conoidal RCC, as well as the direction and pumping rate of the mobile phase on the behavior of particles smaller than 1 mu m have been studied. The conditions have been selected and optimized for the retention and elution of spherical particles of the '150 nm', '400 nm', and '900 nm' standard samples of silica gel (Polyscience Inc.). The possibility of using RCC for the analysis and production of monodisperse standard particle samples has been demonstrated. In particular, the '900 nm' particles have been separated from admixtures of small (100-200 nm) particles and nonspherical 1-2 mu m particles present in the sample. The separated fractions have been characterized by electron microscopy.