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Electrochemical fingerprint identification method for edible oil

A fingerprint, oil electrochemical technology, applied in the field of edible oil electrochemical fingerprint identification, can solve the problems of slow detection speed and large detection error.

Pending Publication Date: 2021-05-18
HUNAN CHEM VOCATIONAL TECH COLLEGE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although the traditional identification is convenient and fast, it still has certain limitations. A simple and easy identification method is urgently needed as a verification and supplement of the traditional identification to increase the accuracy of the identification; for example, the patent No. CN201210007771. A method for identifying the authenticity of edible oils by electrochemical fingerprints, the method comprising the following steps: A. Establishing fingerprints of chemical components of edible oils: a kind of edible oil of the same origin and brand is used as a standard product, and all chemical components of the edible oil are established through oscillation reactions. Electrochemical fingerprint of the composition; B, detection sample: get the edible oil sample to be detected and test under the same conditions as the standard product respectively, obtain the spectrum of the detection sample, and analyze the fingerprints of the two with direct observation method or Origin software As a qualitative basis; but the detection speed of the edible oil electrochemical fingerprint identification method of the invention is slow, and the detection error is relatively large

Method used

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  • Electrochemical fingerprint identification method for edible oil
  • Electrochemical fingerprint identification method for edible oil
  • Electrochemical fingerprint identification method for edible oil

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0041] An edible oil electrochemical fingerprint identification method, comprising the following steps:

[0042] (1) Use 5 batches of sesame oil of the same origin and the same brand as standard samples, and store them in an incubator. The temperature of the incubator is set at 25°C;

[0043] (2) Mix 0.5ml of sesame oil, 40mL of H 2 SO 4 Solution, 20mL malonic acid solution and 1.8mL sodium bromide solution are placed in the reaction tank, then add nonionic surfactant to the mixed solution, the nonionic surfactant is polyethylene glycol glucoside, and the nonionic surface active The addition of agent is 1.3% of the total mass of the mixed solution, and then cover the reaction tank cover with thermometer, injection hole and electrode;

[0044] (3) Then turn on the computer, millivoltmeter and magnetic stirrer connected to the data acquisition device, and start timing;

[0045](4) Turn on the super thermostat and adjust the temperature in the reaction tank to reach 35.0°C, co...

Embodiment 2

[0062] An edible oil electrochemical fingerprint identification method, comprising the following steps:

[0063] (1) 6 batches of soybean oil of the same origin and the same brand were used as standard samples and stored in an incubator. The temperature of the incubator was set at 26°C;

[0064] (2) 0.6ml soybean oil, 50mL H 2 SO 4 Solution, 20mL malonic acid solution and 2.2mL sodium bromide solution are placed in the reaction tank, then add non-ionic surfactant to the mixed solution, the non-ionic surfactant is polyethylene glycol glucoside, and the non-ionic surface active The addition of agent is 1.6% of the total mass of the mixed solution, and then cover the reaction tank lid with thermometer, injection hole and electrode;

[0065] (3) Then turn on the computer, millivoltmeter and magnetic stirrer connected to the data acquisition device, and start timing;

[0066] (4) Turn on the super thermostat and adjust the temperature in the reaction tank to 38°C, control the ma...

Embodiment 3

[0083] An edible oil electrochemical fingerprint identification method, comprising the following steps:

[0084] (1) Use 4-8 batches of peanut oil of the same origin and brand as standard samples, and store them in an incubator with the temperature of the incubator set at 28°C;

[0085] (2) Mix 0.8ml peanut oil, 50mL H 2 SO 4 Solution, 20mL malonic acid solution and 2.5mL sodium bromide solution are placed in the reaction tank, then add nonionic surfactant to the mixed solution, the nonionic surfactant is selected from xylitol glucoside, and the nonionic surface active The addition of agent is 1.8% of the total mass of the mixed solution, and then cover the reaction tank lid with thermometer, injection hole and electrode;

[0086] (3) Then turn on the computer, millivoltmeter and magnetic stirrer connected to the data acquisition device, and start timing;

[0087] (4) Turn on the super thermostat and adjust the temperature in the reaction tank to 40°C, control the magnetic ...

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Abstract

The invention belongs to the technical field of edible oil detection, and particularly relates to an edible oil electrochemical fingerprint identification method which comprises the following steps: taking edible oil as a standard sample; putting the edible oil, an H2SO4 solution, a malonic acid solution and a sodium bromide solution into a reaction tank, and adding a nonionic surfactant into the mixed solution; starting a computer, a millivoltmeter and a magnetic stirrer which are connected with a data acquisition device, and starting timing; starting a super thermostat, adjusting the temperature in the reaction tank, and rapidly adding ceric ammonium sulfate and a sodium bromate solution through an injector; taking a to-be-detected edible oil sample to obtain a spectrum of the detected sample, directly observing the fingerprints of the edible oil sample and the detected sample, and taking Origin software analysis as a qualitative basis; and determining a sample atlas of the to-be-detected edible oil. According to the invention, the phenomenon of interference on the detection result due to the existence of reducing substances in the detection process is reduced, the detection accuracy is improved, and meanwhile, the detection speed is also improved.

Description

technical field [0001] The invention belongs to the technical field of edible oil detection, and in particular relates to an electrochemical fingerprint identification method of edible oil. Background technique [0002] Edible oil, also known as "edible oil", refers to animal or vegetable fats used in the process of making food. It is liquid at room temperature. Due to the source of raw materials, processing technology and quality, common edible oils are mostly vegetable oils, including rapeseed oil, peanut oil, hemp oil, corn oil, olive oil, camellia oil, palm oil, sunflower oil, soybean oil, sesame oil, Flaxseed oil (flax oil), grapeseed oil, walnut oil, peony seed oil, etc. [0003] The electrochemical fingerprint identification method is a chromatographic identification method that can produce specific E-t curve shape or information parameters according to the chemical composition of edible oil through B-Z oscillation reaction to identify edible oil. The method is mai...

Claims

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Application Information

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IPC IPC(8): G01N27/416
CPCG01N27/416
Inventor 佘媛媛刘绚艳
Owner HUNAN CHEM VOCATIONAL TECH COLLEGE
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