In certain chromatographic separations, solutes transfer between the mobile phase and the stationary phase via sorption, which typically refers to the process of adsorption. For many chromatographic systems, the sorption process often depends on the polarity of the compounds—an expression of the overall dipole moment within the molecule. During the separation process, there is competition between the solute and solvent for adsorption to the stationary phase. Highly polar compounds and solvents tend to adsorb strongly on polar surfaces, influencing their separation.
Several factors affect the distribution of the analyte, including column temperature and the characteristics of the stationary and mobile phases. The distribution constant for a given analyte is a key concept that expresses the ratio of the amount of the analyte adsorbed on or dissolved in the stationary phase to the amount of the analyte present in the mobile phase at a specific moment during the separation.
Commonly polar stationary phases, such as silica and alumina, are widely used in packed-column and planar chromatography. The solute's polarity determines the type of stationary phase and solvent. For example, highly active adsorbents may be utilized for weakly polar solutes, while more polar solvents can effectively carry polar compounds. The ability of the solvent to transport the analyte depends on its overall polarity, the nature of the solute, and the polarity of the stationary phase.
From Chapter 11:
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