Multifunctional electrochemical sensor and preparation method thereof
A sensor and multi-functional technology, applied in the field of photoelectrochemistry, can solve the problems that cannot be achieved, and achieve the effects of easy control, efficient sterilization, good stability and reusability
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Embodiment 1
[0039] Preparation method of multifunctional photoelectric sensor
[0040] Weigh the molar mass 2mmol, Bi(NO3 ) 3 ·5H 2 O and 0.1g PVP were added to 70mL ethylene glycol, stirred and dispersed for 3 hours, weighed 2mmol, KI was dissolved in 10mL, H 2 O, and then the two solutions were mixed evenly, and transferred to a 100mL Teflon reactor inner village. Immerse the pre-treated 304 stainless steel in the above mixed solution. Subsequently, the reaction kettle was heated to 160° C., and the reaction time was 4 hours. After the reaction is completed, the stainless steel material is taken out, rinsed with absolute ethanol and distilled water in sequence, and finally placed in a drying oven at 60°C for 5 hours to obtain a BiOI semiconductor thin film material on the surface of the stainless steel, and then the BiOI is immersed in 0.05% chlorine gold acid solution for 20 minutes, and then immersed in 10mM ascorbic acid solution for 30 minutes to obtain the AuNPs / BiOI film (see ...
Embodiment 2
[0042] Example 2: The multifunctional sensor obtained above is applied in a water body, and its detection performance on harmful microorganisms Escherichia coli.
[0043] Take Escherichia coli (100~10 6 ) to evaluate the multifunctional photoelectric sensor:
[0044] First prepare the bacterial suspension, inoculate the Escherichia coli stock solution into the sterilized LB liquid medium, and then place it in an air constant temperature shaker at 37°C and 150 rpm for overnight culture. After the cultured bacterial suspension was centrifuged, the bacterial suspension was diluted to 100-10 with sterile 0.01mol / L PBS (pH=7.4) buffer solution. 6 cfu / mL concentration gradient, and then immerse the multifunctional sensor prepared by the present invention in different concentrations of bacterial solution for 1 hour. Afterwards, the multifunctional sensor was washed and immersed in 100mM Na 2 SO 3 In the solution, a 500W xenon lamp was used as a light source for photoelectric sign...
Embodiment 3
[0046] Embodiment 3: the multifunctional photoelectric sensor of above-mentioned gained is to the killing of harmful microorganism Escherichia coli in water body:
[0047] Get gold Escherichia coli stock solution and dilute to 10 with sterilized 0.01mol / L PBS (pH=7.4) buffer solution 6 cfu / mL. Add 200 microliters of the diluted bacterial solution dropwise to the surface of the multifunctional sensor prepared in Example 1, take it after 30 minutes of light reaction, and dilute several times in sequence with 0.01mol / L PBS (pH=7.4) buffer solution according to the serial dilution method. gradient (10, 100, 100 times), and then take 100 μL from the solution of different dilution times to the prepared LB solid medium, and smear the bacterial solution evenly on the LB medium. Invert the LB medium, put it into an electric thermostat incubator and incubate at 37°C for 24 hours, count the number of colonies grown on the medium, and obtain the bacterial concentration by counting the co...
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