Based on phenylboronic acid imprinted polymer/carbon nanotube modified electrode and its preparation method and application
A technology of imprinting polymers and carbon nanotubes, applied in the direction of material electrochemical variables, etc., can solve problems such as poor selectivity, low signal, and complicated process
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[0029] The present invention provides a preparation method based on phenylboronic acid imprinted polymer / carbon nanotube modified electrode, wherein the preparation method comprises:
[0030] 1) Depositing carbon nanotubes on the surface of the glassy carbon electrode to prepare a carbon nanotube modified electrode;
[0031] 2) placing the carbon nanotube modified electrode prepared in step 1) in a buffer solution containing 3-aminophenylboronic acid and rutin, and preparing the 3-aminophenylboronic acid modified electrode by cyclic voltammetry;
[0032] 3) The 3-aminophenylboronic acid modified electrode is eluted to obtain a phenylboronic acid imprinted polymer / carbon nanotube modified electrode.
[0033] The above design first deposits carbon nanotubes on the surface of the glassy carbon electrode at a constant potential, thereby increasing the electron transfer rate of rutin during the reaction process, increasing the response current, and improving the detection sensitivi...
preparation example 1
[0060] 1) Grind the glassy carbon electrode on the suede, and place the polished glassy carbon electrode in K with a concentration of 0.1mmol / L 3 [Fe(CN) 6 ] / K 4 [Fe(CN) 6 ] Electrochemical treatment was carried out by cyclic voltammetry in the solution until the peak potential value difference between the oxidation peak and the reduction peak △Ep<75mV, then ultrasonically cleaned with ethanol and water and dried;
[0061] 2) Immerse the pretreated glassy carbon electrode in a carbon nanotube solution with a concentration of 0.3 mg / mL, deposit it at a constant potential of +1.7 V for 400 s, and then rinse it with deionized water to obtain a carbon nanotube-modified Electrodes, stored at room temperature for later use;
[0062] 3) Add 120 μL of 0.05 mol / L 3-aminophenylboronic acid solution and 100 μL of 0.02 mol / L rutin solution into 5 mL of 0.05 mol / L phosphate buffer solution (pH=8.0) and mix Vibrate to form a uniform polymerization solution, and pass nitrogen into the po...
preparation example 2
[0065] The preparation was carried out according to the preparation method of Preparation Example 1, except that the amount of 3-aminophenylboronic acid solution in step 3) was 40 μL, and the modified electrode A2 based on phenylboronic acid imprinted polymer / carbon nanotubes was prepared.
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