Abstract
Porous silica microspheres (PSM) have been treated with ammonium bifluoride to adjust porosity, pore size, remove surface impurities, and minimize surface acidity. The porosities of four silicas having mean pore diameters ranging from 150 to 750 A have been altered from initial values to the point at which the mechanical strength is insufficient to allow packed columns with acceptable performance. It is shown that a linear relationship exists between a change in porosity and the relative amount of ammonium bifluoride used to treat the silica. This reagent removes silica homogeneously from all pores in a given microsphere in a controllable and predictable manner. This treatment increases the peak capacity and improves chromatographic performance. The surfaces of treated silicas were probed with thiamine in the ion-exchange chromatographic mode. The slopes and intercepts of plots in which retention is plotted against the reciprocal of buffer concentration were both significantly reduced indicating that surface acidity is minimized by this treatment.
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