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chromatography is based on the physical nature of the mobile phase. The mobile phase can be a gas or a liquid which gives rise to the two basic forms of chromatography, namely, gas chromatography (GC) and liquid chromatography (LC). The stationary phase can also take two forms, solid and liquid, which provides two subgroups of GC and LC, namely; gas–solid chromatography (GSC) and gas–liquid chromatography (GLC), together with liquid solid chromatography (LSC) and liquid chromatography (LLC). The different forms of chromatography are summarized in Table 1. Most thin layer chromatography techniques are considered liquid-solid systems although the solute normally interacts with a liquid-like surface coating on the adsorbent or support or, in some cases an actual liquid coating. Table 1 The Classification of Chromatography chromatography systems

the technique of chromatography, originally invented by Tswett in the latter part of the nineteenth century, was not initially developed for analytical purposes, but for the isolation of some specific pigments from plant extracts. In fact, all the early applications of chromatograph were exclusively for preparative purposes and it was not until gas chromatography (GC) was introduced by Martin and Synge (1) was the technique used for analytical purposes. Even after the introduction of GC, liquid chromatography (then called column chromatography) was still used largely for preparative work. Liquid column chromatography evolved from a preparative procedure into an analytical technique during the late nineteen sixties, largely provoked by the development of high performance liquid chromatography (HPLC), which, in turn,  was largely sparked off by the successful development of GC. Initially, column loads were increased for preparative purposes by increasing the dimensions of the column both

costly and complex instrument, and at the other, on a simple, inexpensive thin layer plate. The first scientist to recognize chromatography as an efficient method of separation was the Russian botanist Tswett (1), who used a simple form of liquid-solid chromatography to separate a number of plant pigments. The colored bands he produced on the adsorbent bed evoked the term chromatography for this type of separation (color writing). Although color has little to do with modern chromatography, the name has persisted and, despite its irrelevance, is still used for all separation techniques that employs the essential requisites for a chromatographic separation,viz. a mobile phase and a stationary phase. The technique, as described by Tswett was largely ignored for a along time and it was not until the late 1930s and early 1940s that Martin and Synge(2) introduced liquid-liquid chromatography by supporting the stationary phase, in this case

Publications,       (1957)131.  9.   H. Boer, "Vapor Phase Chromatography" (Ed. D.H. Desty and C.        L. A. Harbourn), Butterworths Scientific Publications (1957)169. 10. D. W. Grant, "Gas Chromatography 1958" (Ed. D. H. Desty),       Butterworths Scientific Publications, (1957)153. 11. N. H. Ray, J. Appl. Chem., 4(1954)21. 12. 1.  J. Harley, W. Neland V. Pretorious, Nature, London,       181(1958)177. 13.  I. G. McWilliams and R. A. Dewer, "Gas Chromatography 1958",        (Ed. D. H.Desty), Butterworths Scientific Publications 14.  S. A. Beres, C. D. Halfmann, E. D. Katz and R. P. W. Scott,       Analyst, 112(1987)91. 15.L. Ongkiehong, "Gas Chromatography 1960" (Ed. R. P. W. Scott)        Butterworths, London (1958)9. 16. D. H. Desty, A. Goldup and C. J. Geach, "Gas Chromatography         1960"  (Ed. R. P. W. Scott)  Butterworths, London (1958)156. 17.  H, F. Calcote and I. R. King, "The

Introduction Liquid chromatography (LC) was the first type of chromatography to be discovered and, in the form of liquid-solid chromatography (LSC) was originally used in the late 1890s by the Russian botanist, Tswett (1) to separate and isolate various plant pigments. The colored bands he produced on the adsorbent bed evoked the term chromatography (color writing) for this type of separation. Initially the work of Tswett was not generally accepted, partly due to the original paper being in Russian and thus, at

Introduction Chromatography, in one of its several forms, is the most commonly used procedure in contemporary chemical analysis and the first configuration of chromatography equipment to be produced in a single composite unit and made commercially available was the gas chromatograph. Gas chromatography was invented by A. J. P. Martin who, with R. L. M. Synge, suggested its possibility in a paper on liquid chromatography published in 1941 (1). Martin and Synge recommended that the liquid mobile phase used in liquid chromatography could be replaced by a suitable gas. The basis for this recommendation was that, due to much higher diffusivities of solutes in gases compared with liquids, the equilibrium processes involved in a chromatographic process (see Principles and Practice of Chromatography) would be much faster and thus, the columns much more efficient and separation times much