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Preparation method and application of diethylstilbestrol molecularly imprinted electrochemical sensor based on electropolymerization p-mercaptoaniline membrane

A technology of mercaptoaniline membrane and diethylstilbestrol, applied in scientific instruments, material analysis through electromagnetic means, instruments, etc., to achieve the effect of strong selectivity, short time consumption and simple operation process

Active Publication Date: 2020-08-07
HEBEI UNIVERSITY OF SCIENCE AND TECHNOLOGY
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, the preparation of diethylstilbestrol molecularly imprinted electrochemical sensors based on carbon nanotubes and gold nanoparticles simultaneously modified electrodes, using p-mercaptoaniline as a functional monomer, has not been reported yet.

Method used

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  • Preparation method and application of diethylstilbestrol molecularly imprinted electrochemical sensor based on electropolymerization p-mercaptoaniline membrane
  • Preparation method and application of diethylstilbestrol molecularly imprinted electrochemical sensor based on electropolymerization p-mercaptoaniline membrane
  • Preparation method and application of diethylstilbestrol molecularly imprinted electrochemical sensor based on electropolymerization p-mercaptoaniline membrane

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0055] Example 1 A preparation method of diethylstilbestrol molecularly imprinted electrochemical sensor

[0056] A preparation method of diethylstilbestrol molecularly imprinted electrochemical sensor in this embodiment, such as figure 1 As shown, follow the steps in sequence as follows:

[0057] (11) Glassy carbon electrode pretreatment

[0058] The glassy carbon electrodes were sequentially coated with 0.5 μm, 0.3 μm, 0.05 μm Al 2 o 3 The powder was polished on suede, rinsed with ultrapure water and ultrasonically washed in absolute ethanol and ultrapure water, and then the electrode was placed in 0.5mol / L H 2 SO 4 In solution, cycle scan;

[0059] After taking out the electrode and rinsing, place it in the electroactive probe solution, wherein the electroactive probe is potassium ferricyanide / potassium ferrocyanide, and the electroactive probe solution is 5mmol / L potassium ferricyanide / ferrocyanide Potassium and 1mol / L potassium chloride solution are prepared accordi...

Embodiment 2-6

[0074] Example 2-6 Preparation method of diethylstilbestrol molecularly imprinted electrochemical sensor

[0075] This example is a preparation method of a diethylstilbestrol molecularly imprinted electrochemical sensor. The preparation steps and technical parameters are the same as those in Example 1. The only difference is that the corresponding technical parameters in the preparation process are different. The specific results are shown in Table 1.

[0076] Table 1 Technical parameter list of the preparation process

[0077]

[0078] The potential intervals of the cyclic scanning in step (x1) (x=2-6) and step (x2) (x=2-6) in the above-mentioned embodiment 2-6 are both -0.3~1.2V; wherein the multi-walled carbon nanotube The method and dosage of modifying the electrode with gold nanoparticles are the same as in Example 1.

[0079] The sensor prepared in Examples 2-6 has strong selectivity, good stability, high sensitivity, low cost, fast response, simple preparation steps...

Embodiment 7

[0080] Example 7 Carboxylated multi-walled carbon nanotube modification condition selection experiment

[0081] In order to achieve the best modification effect of multi-walled carbon nanotubes, this embodiment studies the dosages of multi-walled carbon nanotube dispersing agents and modifiers. Among them, the reagent DMF with good dispersion effect on MWCNTs was combined with chitosan with good cross-linking effect, and the MWCNTs-DMF dispersion liquid was mixed with CS-1%CH 3 Equal volumes of the COOH solution were mixed to obtain the CMWCNTs modifier, and an appropriate amount of the CMWCNTs modifier was drip-coated on the electrode surface, and the CMWCNTs could be evenly distributed.

[0082]In order to enable the CMWCNTs modifier to adhere stably to the surface of glassy carbon without affecting the catalytic effect of CMWCNTs, this example uses CS-1%CH 3 The concentration of CS in COOH solution was studied. like figure 2 Shown, respectively compared 200mg, 300mg, 40...

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Abstract

The invention discloses a method for preparing a diethylstilbestrol molecularly imprinted electrochemical sensor based on electropolymerization of a p-aminothiophenol film. The method comprises sequential steps such as glassy carbon electrode pretreatment, electrode modification by multi-wall carbon nanotubes, electrode modification by nano gold, functional monomer self-assembly, template molecular pre-assembly, electropolymerization of the p-aminothiophenol film, and template molecule elution, and an organic phase as a polyelectrolyte solvent improves the number and selectivity of binding sites in a polymer film, and is beneficial to formation of a stable host-guest compound from a template molecule and a function monomer, so that the template molecule can maintain a good rigid structurein a polymer network structure and form a cavity with a memory effect. The preparation method is simple and easy to control, and the sensor has strong selectivity and stability, high sensitivity and low cost. The sensor is suitable for analysis and detection of diethylstilbestrol residues in animal-derived foods, feeds and other samples.

Description

technical field [0001] The invention belongs to the fields of molecular imprinting technology, supramolecular chemistry and electrochemical analysis, and relates to a preparation method and application of a molecular imprinted electrochemical sensor, in particular to preparation of diethylstilbestrol molecular imprinted electrochemical sensor based on electropolymerized p-mercaptoaniline membrane method and its application. Background technique [0002] Diethylstilbesrtol (Diethylstilbesrtol) is a synthetic non-steroidal estrogen, which was born in the 1940s. Its pharmacology and efficacy are the same as the natural estrogen estradiol, so it is favored in the field of medicine, mainly as an oral hormone It is used to treat low estrogen and female physiological diseases caused by estrogen imbalance in the body. It can also treat prostate cancer and promote the metabolism of five major nutrients. In addition, diethylstilbestrol is used as an animal feed additive to promote ani...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N27/327
CPCG01N27/3278
Inventor 高文惠赵玲钰高林
Owner HEBEI UNIVERSITY OF SCIENCE AND TECHNOLOGY
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