wider range of activities than alumina and is less likely to induce chemical changes. The latter is
available in a neutral form for general use, and in a basic form (containing sodium carbonate) for use
with acid-sensitive compounds. An acidic form behaves as an anion exchanger and not as a true
adsorbent.
Mobile Phase
The eluting power of a solvent is determined by its overall polarity, the polarity of the stationary phase
and the nature of the sample components. Table 4.9 lists some widely used solvents in order of their
eluting power, this being known as an eluotropic series. In practice, better separations are achieved with
the least polar solvent possible and mixtures of solvents are often used to achieve optimum separation
conditions.
Table 4.9 An example of an eluotropic series
Solvent UV cut off
nmRI 25°C Viscosity Cp
25 °CSolvent polarity (p',
partition-based)Solvent polarity (ε^0 ,
adsorption-based)
n-hexane 190 1.372 0.30 0.1 0.01cyclohexane 200 1.423 0.90 –0.2 0.04carbon tetrachloride 265 1.457 0.90 1.6 0.18toluene 285 1.494 0.55 2.4 0.29
benzene 280 1.498 0.60 2.7 0.32methylene chloride 233 1.421 0.41 3.1 0.42n-propanol 240 1.385 1.9 4.0 0.82tetrahydrofuran 212 1.405 0.46 4.0 0.57
ethyl acetate 256 1.370 0.43 4.4 0.58iso-propanol 205 1.384 1.9 3.9 0.82chloroform 245 1.443 0.53 4.1 0.40acetone 330 1.356 0.3 5.1 0.56ethanol 210 1.359 1.08 4.3 0.88acetonitrile 190 1.341 0.34 5.8 0.65methanol 205 1.326 0.54 5.1 0.95water 1.333 0.89 10.2It is important that a given solvent should not contain impurities of a more polar nature, e.g. water or
acids, alcohol in chloroform, aromatics in saturated hydrocarbons, as resolution may be impaired.
Certain solvent-adsorbent combinations can be chemically unstable. For example, acetone is
polymerized by basic alumina.
Partition Systems