Chemical Analysis. Francis Rouessac

Chemical Analysis - Francis Rouessac


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between two injections.

      2.5.1 Packed Columns

      These columns, less commonly used today, have diameters of 1/8 or 1/4 inch (3.18 or 6.35 mm) and a length of 1–3 m. Manufactured from steel, the internal wall of the tube is treated to avoid catalytic effects with the sample. The carrier gas flow rate ranges from 10 to 40 ml/min.

       In gas–liquid chromatography, the column contains an inert porous support onto which the stationary phase can be impregnated or grafted (between 3 and 25%), depending on the expected application.

       In gas–solid chromatography, the stationary phase is composed of an adsorbent solid (molecular sieve, glassy carbon or porous polymer).

Schematic illustration of capillary columns.

      Porous supports are made of spherical particles of around 0.2 mm in diameter. These are obtained from fossilized silicates (kieselguhr, tripoli) whose backbone is chemically comparable to that of amorphous silica. One of the most common goes by the name of Chromosorb®. Their specific surface area is variable (between 2 and 8 m2 /g).

      2.5.2 Capillary Columns (Open Tubular)

      The regular thickness of the stationary phase can vary between 0.05 and 5 μm. It is either simply deposited or better yet grafted with covalent bonds, possibly followed by a polymerization with cross‐linking on the wall. This deposit is obtained by evaporating a solution or by polymerization in situ in contact with the wall. These are WCOT (wallcoated open tubular) or PLOT (porous layer open tubular) columns, depending upon the nature of the stationary phase employed. Columns are particularly stable and can be rinsed periodically with solvents, which enable them to recover their initial performance levels.

      To compare or anticipate the behaviour of capillary columns, it is useful to know the phase ratio β = VM / VS. By designating ID as the internal diameter of the column and df as the thickness of the deposited film, an approximate calculation leads to:

      (2.1)beta equals StartFraction upper I upper D Over 4 d Subscript f Baseline EndFraction

      The column’s capacity is related to the phase ratio but also, for each solute, to its retention time, since k is inversely proportional to it. The phase ratio β, accessible from the physical characteristics of the column, and k (retention factor) from the chromatogram, help us calculate the partition coefficient K of a solute, whose value is generally quite high (1,000 for example) owing to the nature of the mobile phase (gas).

      WCOT columns are well suited to mass spectrometry detection and are thus used often. To deposit a film of known thickness, a method consists in filling the column with a solution of stationary phase of known concentration (e.g. 0.2% in ether), so that the desired thickness is obtained after solvent evaporation. This layer can then be cross‐linked by a peroxide or by γ irradiation. The process is similar to the application of paint on a surface that has been pretreated to obtain good adherence.

      For packed columns, impregnation or deposit techniques can lead to many different stationary phases from a large selection of low‐volatility organic compounds. On the other hand, for capillary columns, manufacturing constraints require a much more limited selection of compounds. The current phases correspond in principle to three families: polysiloxanes, polyethylene glycols, and ionic liquids. Each category can have many structural variants. For the study of optically active compounds, specific phases are used.

      Squalane is used as a reference phase, since it is the only one that is perfectly defined. On the McReynolds scale, squalane has a polarity of zero (Section 2.10.3). This saturated hydrocarbon (C30H62) is derived from squalene, a natural terpene extracted from shark’s liver. On this stationary phase, which can be used between 20 and 120°C (using either deposition or impregnation), the compounds are eluted in increasing order of their boiling points (retention time being inversely proportional to vapour pressure). Various grafted phases based upon polyalkylsiloxanes are also almost apolar.

      2.6.1 Polysiloxanes

      2.6.2 Polyethylene Glycols (PEG)

      The best known representative of this family is Carbowax®. These polar polymers (Mr


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