CONNECTICUT INSTRUMENT COMPANY

purities in the final clean-up proc ess prior to the final assessment. Column chromatography ... Reflection Accessory designed to mount directly into ...
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the most useful combination of tests for this purpose. Chromatography, in its various forms, has proved an almost indis­ pensable tool in pesticide work. For many years column chroma­ tography has proved to be almost the only method of separating im­ purities in the final clean-up proc­ ess prior to the final assessment. Column chromatography was also used very successfully for separat­ ing macro quantities of different chlorinated hydrocarbon pesticides. Paper chromatography has proved invaluable for the separation and estimation of traces of chlori­ nated hydrocarbon and phosphorus pesticides. A major advance was made in this work when gas liquid chroma­ tography, using electron capture ionisation detection, was introduced for the estimation of chlorinated hydrocarbon pesticides and it is to be hoped that, by suitable modifica­ tions of this, it will become appli­ cable to the detection and determi­ nation of the phosphorus com­ pounds. One of the great advan­ tages of this new technique is that considerably less clean-up is re­ quired than for other forms of esti­ mation. Final mention may be made of vitamins which are now frequently added to foodstuffs to reinforce the natural vitamins in a number of foodstuffs. Under our Labelling of Food Order where claims for the presence of vitamins are made, the manufacturer must declare on the label the amount of such additions per ounce of the foodstuff. Modern analytical chemistry, employing the newer physical methods, now en­ ables the analyst to determine all additives of this nature, vitamin D being the only exception. The successful control of addi­ tives clearly depends on the skill of the analytical chemist and he, in turn, must rely on modern instru­ mentation and physical methods for the detection and determination of the ever-increasing variety of materials which are now used as food additives. END •

MULTIPLE REFLECTION . . . a technique which greatly extends the usefulness of attenuated total reflectance

CIC now has available a Multiple Reflection Accessory designed to mount directly into the Model ATR-1 Attenu­ ated Total Reflectance Attachment. The accessory contains a rhombic crystal in which the beam of energy is internally reflected four times. By placing from one to four pieces of a sample against the crystal, the resulting Attenuated Total Reflectance spectrum can be multiplied in proportion to the number of sample reflections. The technique of multiple reflection intensifies the ATR spectrum in direct proportion to the number of reflections taken, and with little addi­ tional loss in energy of the beam.

The use of this technique greatly broadens the applications of Attenuated Total Reflectance spectroscopy. Nor­ mally, ATR spectra are slightly weaker in appearance than those obtained by transmission since the ATR 'pathlength' is only a few microns. But by taking several reflections of the sample, using the Multiple Reflection Accessory, re­ gions of particular interest or the entire spectrum can be multiplied by as much as a factor of four. If you are interested in this acces­ sory or would like to know more about A t t e n u a t e d Total Reflectance tech­ niques, write or visit CIC.

OPTICAL SCHEMATIC

MODEL ATR-1 WITH U N I T MOUNTED

MULTIPLE REFLECTION ACCESSORY

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