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Appl Environ Microbiol. 1971 June; 21(6): 1051-1052
Copyright © 1971 American Society for Microbiology. All Rights Reserved.

Rapid Infrared Determination of the Potency of Chlorinated Bactericides

Central Research Laboratory, N. L. Industries, Hightstown, N.J.

ABSTRACT

A rapid infrared reflectance method for evaluating the germicidal potency of synthetic materials containing various amounts of two chlorinated bactericides was developed. The dimeric product 2,2'-methylenebis (4,6-dichlorophenol) exhibited a characteristic C=C skeletal inplane stretching infrared absorption band at 1,640 cm^–1. The monomeric 2,4-dichlorophenol precursor showed a characteristic absorption band at 1,579 cm^–1. These characteristic infrared absorptions may be used for analysis of the potency of the manufactured chlorinated bactericide. For a series of samples known to vary in dimer content, the micrograms per milliliter required for a 100% bacterial kill is first determined by a standard American Petroleum Institute method. Then the area ratio of the infrared absorption bands characteristic of the chlorinated bactericides is measured for each sample and plotted versus the microgram per milliliter required for 100% bacterial kill. The potency of subsequent samples is simply and rapidly determined by measuring this ratio from the infrared absorption curve and calculating micrograms per milliliter required for 100% kill from the calibration curve. Analysis time is approximately 1 hr compared to biocidal tests in current use requiring approximately a 1-month incubation period.