CN106596478A - Method of utilizing InP/ZnS QDs probe to detect dimethoate concentration - Google Patents

Abstract

The invention discloses a method of utilizing an indium phosphide/zinc sulfide quantum dot (InP/ZnS QDs) probe to detect the dimethoate concentration. The method comprises the following steps: step one, preparing InP/ZnS QDs containing standard solutions with different concentrations, detecting the fluorescence strength of the standard solutions to obtain the fluorescence spectrum of the standard solutions; and step two, preparing a InP/ZnS QDs containing sample solution, detecting the fluorescence strength of the sample solution, and determining the dimethoate concentration of the sample solution through the fluorescence spectrum of the standard solutions. InP/ZnS QDs are taken as the probe and can be quenched by dimethoate, so InP/ZnS QDs are used to detect the dimethoate concentration. The detection is simple and convenient, the sensitivity is high, the detection limit is low, and thus the online in-situ rapid and sensitive detection of dimethoate concentration is realized.

Description

Using the method for InP/ZnS QDs probe in detecting Rogor concentration

Technical field

The present invention relates to a kind of method of detection Rogor concentration, more particularly to it is a kind of using InP/ZnS QDs probe in detecting The method of Rogor concentration.

Background technology

Organophosphorus pesticide (Ops) is referred to for preventing and treating phytopathy, worm, compound of the evil containing organophosphors, this kind of pesticide species Many, drug effect is high, and purposes is wide, easily decomposes, and is generally not easy accumulation in people, animal body.The organophosphorus pesticide of domestic production is most absolutely Count as insecticide, the parathion such as commonly used, thimet, Rogor etc..Wherein Rogor be exactly great representational organophosphorus pesticide it One.Conventional detection pesticide method has high performance liquid chromatography, gas chromatography, gas chromatography-mass spectrography, enzyme point both at home and abroad Analysis technology, thin layer chromatography etc..Although this several method sensitivity is high, selectivity is strong, pesticide concentration can be accurately detected, As operating procedure is complicated, time-consuming for detection, apparatus expensive, poor sensitivity and the shortcomings of require higher to technical staff.

In recent years, as the continuous progressive and quantum dot of quantum dot synthetic technology is in life sciences, solaode, optics What the fields such as device were applied gos deep into, and the impact that its toxicity is produced to environment is paid close attention to by more and more people.Therefore, it is traditional IIB-VI quantum dots such as CdTe, CdSe etc., although its technology development comparative maturity, but containing in Cd this toxic element In shortcoming, the application in its future is greatly limited.By comparison, III-V quantum dots have relatively low toxicity, wherein InP amounts Son puts especially prominent (not containing the toxic elements such as Cd, Hg, As, Se), and its spectral region covers visible and near infrared region (500- 850nm), and with relatively small particle size, these features are all not available for the II-VI quantum dots such as traditional CdSe 's.Excellent biocompatibility and optical property cause InP/ZnS quantum dots to be more suitable for applying in biomedical imaging etc. Field.

The content of the invention

For the problem being previously mentioned, the invention provides a kind of side of utilization InP/ZnS QDs probe in detecting Rogor concentration Method, step include：

Using the method for InP/ZnS QDs probe in detecting Rogor concentration, step includes：

1) prepare Rogor original solution needed for variable concentrations standard solution；

2) the InP/ZnS QDs of 50nm are added in the Rogor solution；

3) the Rogor original solution for adding InP/ZnS QDs is diluted to 3ML using normal hexane buffer solution；

4) solution after dilution is stirred 100 times, is placed in 15min at a temperature of -8 DEG C, equal-volume is obtained different The standard solution of concentration, its concentration value are followed successively by：：0mol/L、1×10^-7mol/L、5×10^-7mol/L、1×10^-6mol/L、5 ×10^-6mol/L、1×10^-6mol/L；

5) fluorescence intensity of the standard solution is detected, the fluorescence spectra of the standard solution is obtained.

6) take Rogor solution to be detected, and be added thereto to the InP/ZnS QDs of 50.00nM, then buffered with normal hexane Solution is diluted to 3mL, obtains sample solution；

7) fluorescence intensity of the sample solution is detected, the sample is determined by the fluorescence spectra of the standard solution The concentration of Rogor in solution.

Preferred version is：Detect that the standard solution and the excitation wavelength of the sample solution fluorescence intensity are 388nm.

Preferred version is：Fluorescence intensity of the intensity of sample Rogor with standard solution is contrasted, the sample is obtained final product The concentration of Rogor in solution.

Preferred version is：The solution after dilution is stirred using microsyringe.

Preferred version is：1 × 10 can reach to the test limit of Rogor^-7mol/L。

Rogor, a kind of pesticide, sterling are white, needle-shaped crystals, and in water, dissolubility is 39 g/l (room temperature).Easily by plant Absorb and transporting is to Herb.It is more stable in an acidic solution, hydrolyzed in alkaline solution rapidly, therefore can not be mixed with Basic pesticides With.One of purposes kind larger compared with wide, yield in organophosphors systemic insecticide.Chemical name O, O- dimethyl-S- (N- methyl Carbamoyl methyl) phosphorodithioate.According to the characteristic of Rogor, on the basis of many experiments, buffered using normal hexane molten Liquid is diluted to the standard solution obtained by 3ML to the Rogor original solution for adding the InP/ZnS QDs of 50nm, detects the mark The fluorescence intensity of quasi- solution, obtains the fluorescence spectra of the standard solution.So that utilization InP/ZnS QDs proposed by the present invention The method of probe in detecting Rogor concentration, sensitivity is high, accuracy rate is high, time-consuming short, be capable of achieving Rogor concentration in actual sample The rapid sensitive detection of line original position.

Description of the drawings

Fig. 1 is that the standard solution of the Rogor of variable concentrations in one embodiment of the present of invention is anti-with InP/ZnS QDs probes Ying Hou, the fluorescence spectra obtained when excitation wavelength is 388nm.

Specific embodiment

The present invention is described in further detail below in conjunction with the accompanying drawings, to make those skilled in the art with reference to description text Word can be implemented according to this.

It should be appreciated that it is used herein such as " have ", "comprising" and " including " term do not allot one or many The presence or addition of individual other elements or its combination.

Embodiment 1

First, set up linear relationship

As shown in figure 1, preparing the original solution of the Rogor of variable concentrations, and add the InP/ZnS of 50.00nM thereto respectively QDs, is then diluted to 3mL with normal hexane buffer solution, prepares a series of standard solution of equal-volume variable concentrations, wherein, mark In quasi- solution, the concentration of Rogor is followed successively by：0mol/L、1×10^-7mol/L、5×10^-7mol/L、1×10^-6mol/L、5×10^{- 6}mol/L、1×10^-6Mol/L its numbering be respectively a, b, c, d, e, f.With spectrofluorophotometer 388nm excitation wavelength Under, the fluorescence intensity of above-mentioned standard solution is detected respectively, fluorescence spectra as shown in Figure 1 is obtained, and is read from fluorescence spectra Fluorescence intensity level corresponding to the standard solution of the Rogor for going out variable concentrations.Understand that the test limit of Rogor can reach 1 × 10^-7mol/ L。

2nd, in sample solution Rogor concentration measure

Separately take the original solution of the Rogor of certain volume, and be added thereto to the InP/ZnS QDs of 50.00nM, then with just Hexane buffer solution is diluted to 3mL, obtains sample solution, wherein, in sample solution, the concentration of InP/ZnS QDs is 50.00nM. With spectrofluorophotometer under the excitation wavelength of 388nm, the fluorescence intensity of detection sample solution is molten by Rogor concentration standard The fluorogram of liquid determines the concentration of Rogor in sample solution.

Embodiment 2

The invention provides using the method for InP/ZnS QDs probe in detecting Rogor concentration, step includes：

1) prepare variable concentrations standard solution institute Rogor original solution；

2) the InP/ZnS QDs of 50nm are added in the Rogor original solution；

3) the Rogor original solution for adding InP/ZnS QDs is diluted to 3ML using normal hexane buffer solution；

4) solution after dilution is stirred 100 times, is placed in -8 DEG C of 15min, the mark of equal-volume variable concentrations is obtained Quasi- solution, its concentration value are followed successively by：：0mol/L、1×10^-7mol/L、5×10^-7mol/L、1×10^-6mol/L、5×10^-6mol/ L、1×10^-6mol/L；

5) fluorescence intensity of the standard solution is detected, the fluorescence spectra of the standard solution is obtained.

6) take Rogor solution to be detected, and be added thereto to the InP/ZnS QDs of 50.00nM, then buffered with normal hexane Solution is diluted to 3mL, obtains sample solution；

7) fluorescence intensity of the sample solution is detected, the sample is determined by the fluorescence spectra of the standard solution The concentration of Rogor in solution.

It is described to detect that the standard solution and the excitation wavelength of the sample solution fluorescence intensity are 388nm.

Although embodiment of the present invention is disclosed as above, which is not restricted to listed by description and embodiment With, it can be applied to various suitable the field of the invention completely, for those skilled in the art, can be easily Other modification is realized, therefore under the general concept limited without departing substantially from claim and equivalency range, the present invention is not limited In specific details and shown here as the legend with description.

Claims (5)

1. using the method for InP/ZnS QDs probe in detecting Rogor concentration, it is characterised in that step includes：

1) prepare Rogor original solution needed for variable concentrations standard solution；

2) the InP/ZnS QDs of 50nm are added in the Rogor original solution；

3) the Rogor original solution for adding InP/ZnS QDs is diluted to 3ML using normal hexane buffer solution；

4) solution after dilution is stirred 100 times, is placed in 15min at a temperature of -8 DEG C, equal-volume variable concentrations are obtained Standard solution, its concentration value is followed successively by：0mol/L、1×10^-7mol/L、5×10^-7mol/L、1×10^-6mol/L、5×10^{- 6}mol/L、1×10^-6mol/L；

5) fluorescence intensity of the standard solution is detected, the fluorescence spectra of the standard solution is obtained.

6) take Rogor solution to be detected, and be added thereto to the InP/ZnS QDs of 50.00nM, then use normal hexane buffer solution 3mL is diluted to, sample solution is obtained；

7) fluorescence intensity of the sample solution is detected, the sample solution is determined by the fluorescence spectra of the standard solution The concentration of middle Rogor.

2. the method for utilization InP/ZnS QDs probe in detecting Rogor degree according to claim 1, it is characterised in that detection The excitation wavelength of the standard solution and the sample solution fluorescence intensity is 388nm.

3. the method for utilization InP/ZnS QDs probe in detecting Rogor concentration according to claim 1, it is characterised in that will The intensity of sample Rogor is contrasted with the fluorescence intensity of standard solution, obtains final product the concentration of Rogor in the sample solution.

4. the method for utilization InP/ZnS QDs probe in detecting Rogor concentration according to claim 1, it is characterised in that make The solution after dilution is stirred with microsyringe.

5. the method for utilization InP/ZnS QDs probe in detecting Rogor concentration according to claim 1, it is characterised in that right The test limit of Rogor can reach 1 × 10^-7mol/L。