Illustrated Guide to Home Chemistry Experiments

(Amelia) #1

112 DIY Science: Illustrated Guide to Home Chemistry Experiments


pARTII: Two- dImENSIoNAL CHRomAToGRApHy
If an analyte contains several different compounds, it
sometimes happens that a particular solvent achieves
better separation for some of the compounds than for others.
Another solvent might provide better separation of those
problem compounds, but poorer separation of the compounds
that were well separated by the first solvent. One way to
separate such analyte mixtures is to use two passes with
different solvents, reorienting the substrate by 90° between
the runs. The solvent used in the first pass achieves good
separation of some of the components. Those components that
are not well separated by the first solvent are separated by the
second solvent. Because the new solvent front moves at 90°
relative to the first solvent front, the resulting chromatogram is
two-dimensional. Such two-dimensional chromatograms yield
characteristic (and often colorful) patterns even with complex
mixtures of analytes.



  1. If you have not already done so, put on your splash
    goggles, gloves, and protective clothing.

  2. Prepare six squares of chromatography paper and label
    them A through F.

  3. Draw a pencil line parallel to and about 4 cm from one
    edge of each square, and label that line 1. Draw a second
    perpendicular pencil line about 4 cm from an adjoining
    edge, and label that line 2.

  4. Spot each square at the intersection of the lines, as
    described in Part I. Spot squares A, B, and C with both


the brown and black permanent marking pens, at least
five times each. Spot squares D, E, and F with both the
brown and black water-soluble marking pens, at least
five times each. Record the analyte for each square in
Table 6-6.


  1. Using the stiff wire and two paper clips, suspend square
    A in the first chromatography jar, square B in the second
    jar, and square C in the third jar.

  2. When the solvent front approaches the top of each
    square, remove the square from the chromatography jar,
    mark the highest point reached by the solvent front, and
    suspend the square to dry.

  3. While the first set of squares is drying, suspend square
    D in the first chromatography jar, square E in the second
    jar, and square F in the third jar. When the solvent front
    approaches the top of each square, remove the square
    from the chromatography jar, mark the highest point
    reached by the solvent front, and suspend the square
    to dry.

  4. When the first set of squares is dry, rotate square A 90°
    to put the second pencil line parallel with the bottom
    of the chromatography jar and suspend square A in the
    second chromatography jar. Repeat this procedure to
    put square B in the third jar and square C in the first
    jar. When the solvent front approaches the top of each
    square, remove the square from the chromatography jar,
    mark the highest point reached by the solvent front, and
    suspend the square to dry.


TABLE 6-6: Two-dimensional chromatography—observed data


SquareAnalyte Solvent 1 Solvent front 1Solvent 2 Solvent front 2

ExamplePermanent pensAcetone 8.85 cm Petroleum ether 9.20 cm

A.


B.


C.


d.

E.


f.
Free download pdf