RU2761165C1 - Method for express instrumental identification of the authenticity of the smell of a person and clothes - Google Patents

Abstract

FIELD: analytical chemistry.SUBSTANCE: invention relates to the field of analytical chemistry. A method for express instrumental identification of the authenticity of the smell of a person and clothes is proposed. The method includes the measurement of the odor of the tissue of the examined clothing identical to the nature and in contact with the skin in the places of the greatest secretion of secretory fluids for at least 30 minutes of the carrier tissue and the clothes in contact with the person under study. The measurement is carried out using an electronic nose based on 4 piezo sensors modified by multilayer carbon nanotube phases, comparing pairwise the identical odors obtained for the carrier fabric and clothes in contact with a person, deciding on the identity of the odor of the fabrics if the differences of each parameter does not exceed 15%.EFFECT: invention provides a reduction in the time of analysis, an increase in productivity and objectivity.1 cl, 1 dwg

Description

The method relates to the field of analytical chemistry and can be applied to carry out instrumental odorometry of clothing in a simple and express way and a portable device based on gas sensors.

The closest available method for sensory examination of clothing, footwear, materials includes the determination of the smell of extracts and its intensity (odorimetric studies). For organoleptic testing, only practically healthy persons are involved, at least 8 people who are able to clearly distinguish the smell of samples. At the same time, when obtaining extracts from products, it is imperative to obtain a "blank" sample under similar conditions: "infusion" of water of the same volume in an identical closed container (control experiment). Determination of the smell of water extracts and its intensity is carried out by closed tasting using 4 flasks with ground-in stoppers with a capacity of 100 cm ³ . Odorimetric studies of the air environment for clothes are carried out in three wide-necked flasks with a capacity of 500 cm ³ , where the studied samples of 10 × 10 cm are placed. The flasks are closed with a ground glass stopper and kept in a thermostat for 1 hour at 37 ° C. The assessment of the intensity of the smell is made on a three-point scale similar to the assessment of the smell of water extracts / Filonyuk, V.A. Hygienic examination of clothing and footwear: method, recommendations / V.A. Filonyuk, T.I. Petrova-Sobol. - Minsk: BSMU, 2007 .-- 27 p., Or

http://rep.bsmu.by/bitstream/handle/BSMU/5144/%D0%93%D0%B8%D0%B3% D0% B8% D0% B5% D0% BD% D0% B8% D1% 87 % D0% B5% D1% 81% D0% BA% D 0% B0% D1% 8F% 20% D1% 8D% D0% BA% D1% 81% D0% BF% D0% B5% D1% 80% D1% 82% D0% B8% DQ% B7% DQ% BQ% 2Q% DQ% BE% DQ% B4% DQ% B5% DQ% B6% D0% B4% D1% 8B% 2Q% DQ% B8% 20% DQ% BE% DQ% B1% D1% 83% D0% B2% D0% B8.pdf? Sequence = 1 & isAllowed = y, accessed 07/27/2020 /. As follows from the description, odorometric studies are not express, they involve the use of special dishes, adherence to a number of conditions and the presence of special skills among specialists. Known instrumental methods for the determination of easily volatile compounds on clothing (chromatography, gas chromatography-mass spectrometry) involve a long sample preparation and do not allow solving the problem of the authenticity of the smell of a person and clothing.

The technical result of the invention is to reduce the analysis time, increase productivity and objectivity by eliminating the subjective assessment of odor and the use of the device for highly sensitive fast scanning of easily volatile compounds on clothing and establishing the authenticity of human odor and clothing odor.

The technical result is achieved by the fact that in the method of express instrumental establishment of the authenticity of the smell of a person and clothes, which consists in measuring the smell of a carrier tissue, identical to the nature of the tissue of the investigated clothes and in contact with the skin in places of the greatest secretion of secretory fluids for at least 30 minutes, and the investigated clothing in contact with a person, using an electronic nose based on 4 piezosensors modified with phases of multilayer carbon nanotubes, zirconyl nitrate, dicyclohexane-18-crown-6, hydroxyapatite, for 200 s, in the calculation of five parameters based on integral signals of these sensors for 5, 20, 60, 120 s measurements by finding the quotient of the total area under the curves of all sensors at these points in time: a ₁ - S (5 s) / S (20 s), and ₂ - S (5 s) / S (120 s), and ₃ - S (20 s) / S (60 s), and ₄ - S (20 s) / S (120 s), and ₅ - S (60 s) / S (120 s) , compare pairwise identical parameters obtained for the carrier tissue and clothing in contact with a person, make a decision about the identity of the smell of fabrics, if the difference in each parameter does not exceed 15%.

The essence of the invention lies in the fact that for the express instrumental establishment of the authenticity of the odor of a person and clothing, the odor of a carrier tissue is measured, which is identical to the nature of the fabric of the studied clothing and is in contact with the skin in the places of the greatest secretion of secretory fluids for at least 30 minutes, and of the test clothing that has been in contact with human, using an electronic nose based on 4 piezosensors modified by the phases of multilayer carbon nanotubes, zirconyl nitrate, dicyclohexane-18-crown-6, hydroxyapatite, for 200 s, in the calculation of five parameters from the integral signals of these sensors for 5, 20 , 60, 120 s measurements by finding the quotient of the total area under the curves of all sensors at these points in time: a ₁ - S (5 s) / S (20 s), and ₂ - S (5 s) / S (120 s), and ₃ - S (20 s) / S (60 s), and ₄ - S (20 s) / S (120 s), and ₅ - S (60 s) / S (120 s), compare pairwise identical parameters, obtained for wearer fabric and clothing in contact with a person, make a decision about b the identity of the smell of fabrics, if the differences in each parameter do not exceed 15%.

FIG. 1. Photo of a mobile nose diagnostician with an array of sensors and odor analysis of samples:

a - bottom view of the sensors installed in the cell;

b - top view of the device at the time of measuring the odor of the sample.

The method can be implemented using a mobile electronic nose-diagnostician (Fig. 1), equipped with highly sensitive sorption gas sensors. To implement the method, four sensors with modifiers on the electrodes in the form of solid phases are sufficient: multilayer carbon nanotubes, hydroxyapatite, zirconyl nitrate and the polymer phase dicyclohexane-18-crown-6, available from the manufacturer of the nasal diagnostician. The sensors are installed in the detection cell of the diagnostician's nose.

The algorithm for solving the problem is as follows:

1. To establish the authenticity of the smell of the skin of a particular person and clothing, it is necessary to obtain a carrier tissue, for which a cotton napkin is kept for at least 30 minutes on a person's skin in places of maximum secretion of secretory fluids (for example, on the folds of the arms, under the knees, armpits, etc.) etc.).

2. Next, the total content of easily volatile compounds on the carrier tissue and the examined clothing is measured sequentially using a mobile nose-diagnostician with an open detection cell for 200 s.

3. In the software of the device select the integral analytical signals total for 4 sensors for times of 5, 20, 60, 120 s sorption S (5 s), S (20 s), S (60 s), S (120 s) and calculate the parameters a ₁ - a ₅ by finding the quotient: a ₁ - S (5 s) / S (20 s), and ₂ - S (5 s) / S (120 s), and ₃ - S (20 s) / S (60 s), and ₄ - S (20 s) / S (120 s), and ₅ - S (60 s) / S (120 s).

4. Next, pairwise the same parameters are compared, obtained for the standard cotton wearer and clothing in contact with a person, by finding the relative difference for each parameter, for example, for the parameter a ₁ :

Δ ₁ ,% = | ((a ₁ - S (5 s) / S (20 s)) _wear - (a ₁ - S (5 s) / S (20 s)) _clothes ) * 100 / (a ₁ - S (5 s) / S (20 s)) _carrier |

5. The smell of clothing and human skin is authentic if all calculated parameters do not differ for the standard wearer and clothing by more than 15%. If this condition is violated, the authenticity is doubtful or a repetition of the experiment is required.

The time of a single analysis without the time for obtaining the standard carrier is 15-20 minutes for 2 parallel measurements, for serial analyzes the time does not increase and the productivity can reach up to 10-20 authentication tasks / shift, which is equivalent to a decrease in the analysis time, in comparison with odorimetry, not less than 4-5 times, with complete exclusion of subjectivity, ensuring cataloging of samples (accumulation of a data bank) and a significant reduction in costs compared to instrumental methods of analysis. With a significant analytical signal of the array of sensors for the smell of fabrics (threefold excess of the noise level - measurement without fabric), the time of keeping the fabric in air after contact does not affect the tasks of authentication. Replacing the sensors or changing the signal fixing mode leads to errors and the method is not feasible.

The technical result of the invention is to reduce the analysis time, increase productivity and objectivity by eliminating the subjective assessment of odor and the use of the device for highly sensitive fast scanning of easily volatile compounds on clothing and establishing the authenticity of human odor and clothing odor.

Claims (1)

The method of express instrumental establishment of the authenticity of the smell of a person and clothing consists in the fact that the odor of a carrier tissue is measured, which is identical to the nature of the tissue of the test clothing and is in contact with the skin in the places of the greatest secretion of secretory fluids for at least 30 minutes, and of the test clothing that has been in contact with a person, using an electronic nose based on 4 piezosensors modified by the phases of multilayer carbon nanotubes, zirconyl nitrate, dicyclohexane-18-crown-6, hydroxyapatite, for 200 s, in the calculation of five parameters from the integral signals of these sensors for 5, 20, 60 , 120 s measurements by finding the quotient of the total area under the curves of all sensors at these points in time: a ₁ - S (5 s) / S (20 s), and ₂ - S (5 s) / S (120 s), and ₃ - S (20 s) / S (60 s), and ₄ - S (20 s) / S (120 s), and ₅ - S (60 s) / S (120 s), compare pairwise identical parameters obtained for fabrics of the wearer and clothing in contact with a person make a decision about the identity of the aha tissues, if the difference in each parameter does not exceed 15%.

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