阅读说明：本技术 苯硼酸取代交联聚二乙炔、其制备方法与一种试纸 (Phenylboronic acid substituted cross-linked polydiacetylene, preparation method thereof and test paper ) 是由 邹纲 候朋辉 何晨露 于 2020-07-20 设计创作，主要内容包括：本发明提供了一种试纸,其是由苯硼酸取代交联聚二乙炔制备得到,该试纸可用于检测有机溶剂；本申请提供的试纸在检测不同溶剂时可以直接通过肉眼辨别蓝红颜色转变程度,并依此判定溶剂种类,也可以使用紫外-可见吸收光谱对溶剂处理后的试纸进行定性分析,计算出比色(CR)值,根据CR值判定溶剂种类。进一步的,本申请提供的试纸还可在已知溶剂组分的情况下根据颜色偏移或CR值判断出组分体积分数。(The invention provides test paper, which is prepared by substituting phenyl boric acid for cross-linked polydiacetylene and can be used for detecting an organic solvent; the test paper that this application provided can directly discern blue red color transformation degree through the naked eye when detecting different solvents to judge the solvent kind according to this, also can use ultraviolet-visible absorption spectrum to carry out qualitative analysis to the test paper after the solvent treatment, calculate color Comparison (CR) value, judge the solvent kind according to the CR value. Further, the test paper provided by the application can also judge the volume fraction of the component according to the color shift or CR value under the condition that the solvent component is known.)

1. A phenylboronic acid substituted cross-linked polydiacetylene is prepared by condensing phenylboronic acid substituted diacetylene shown in formula (I) and diacetylene and then performing irradiation cross-linking to obtain the phenylboronic acid substituted cross-linked polydiacetylene;

2. the phenylboronic acid-substituted crosslinked polydiacetylene according to claim 1, wherein the molar ratio of the phenylboronic acid-substituted diacetylene to the diacetylene is 1 (2.9-3.1).

3. A preparation method of phenylboronic acid substituted cross-linked polydiacetylene comprises the following steps:

mixing and heating phenylboronic acid substituted diacetylene shown as a formula (I) and diacetylene in a solvent, and irradiating after reaction to obtain phenylboronic acid substituted crosslinked polydiacetylene;

4. the method according to claim 3, wherein the heating temperature is 80 to 100 ℃, and the solvent is cyclopentanone and tetrahydrofuran.

5. The method according to claim 3, wherein the irradiation is ultraviolet irradiation of 200 to 320 nm.

6. A test paper prepared from the phenylboronic acid-substituted crosslinked polydiacetylene according to any one of claims 1 to 2 or the phenylboronic acid-substituted crosslinked polydiacetylene prepared by the preparation method according to any one of claims 3 to 5, wherein the test paper is used for detecting an organic solvent.

7. A preparation method of the test paper comprises the following steps:

mixing phenylboronic acid substituted diacetylene shown in a formula (I) with diacetylene in a solvent, and compounding the obtained mixed solution on paper to obtain a mixed molecular membrane;

heating the mixed molecular film and then irradiating to obtain test paper;

8. the method for preparing the paper, according to claim 7, wherein the compounding is performed by printing the mixed solution on the paper by means of ink-jet printing.

Technical Field

The invention relates to the technical field of detection, in particular to phenylboronic acid substituted cross-linked polydiacetylene, a preparation method thereof and test paper.

Background

Organic solvent detection is increasingly important in chemical engineering and laboratories, for example, the identification of organic solvents such as N-hexane, acetone, toluene, N-dimethylformamide, and the like. There are many commonly used environmental sensing means, such as electrochemical, photochemical, optical and colorimetric sensing; the colorimetric sensing technology has the outstanding advantages of rapid feedback, simple and convenient operation, visual detection, no need of using large instruments and the like, thereby being a method for efficiently detecting the environment.

Polydiacetylenes are polymers useful for organic solvent detection and undergo a visually discernible blue to red transition upon external stimulus, a unique property that has led to the widespread use of polydiacetylenes in colorimetric sensors. However, the unmodified polydiacetylene has poor solvent resistance, and the blue polydiacetylene rapidly converts to red polydiacetylene upon encountering some solvents, and the difference in the effect of these solvents on the polydiacetylene is not discernible to the naked eye. Therefore, the test paper prepared by improving the characteristics of the polydiacetylene according to the defects has important significance for detecting the organic solvent if the test paper can detect the organic solvent and can distinguish obvious differences by naked eyes.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the phenylboronic acid-substituted cross-linked polydiacetylene test paper, which can directly identify the color conversion degree through naked eyes, so that the judgment of the type of a solvent is realized.

In view of the above, the application provides phenylboronic acid-substituted cross-linked polydiacetylene, which is obtained by condensing phenylboronic acid-substituted diacetylene shown in formula (I) and diacetylene and then performing irradiation cross-linking;

preferably, the molar ratio of the phenyl boronic acid substituted diacetylene to the diacetylene is 1 (2.9-3.1).

The application also provides a preparation method of the phenylboronic acid substituted cross-linked polydiacetylene, which comprises the following steps:

mixing and heating phenylboronic acid substituted diacetylene shown as a formula (I) and diacetylene in a solvent, and irradiating after reaction to obtain phenylboronic acid substituted crosslinked polydiacetylene;

preferably, the heating temperature is 80-100 ℃, and the solvent is cyclopentanone and tetrahydrofuran.

Preferably, the irradiation is ultraviolet irradiation of 200-320 nm.

The application also provides test paper which is prepared from the phenylboronic acid-substituted cross-linked polydiacetylene in the scheme or the phenylboronic acid-substituted cross-linked polydiacetylene prepared by the preparation method in the scheme, and the test paper is used for detecting an organic solvent.

The application also provides a preparation method of the test paper, which comprises the following steps:

mixing phenylboronic acid substituted diacetylene shown in a formula (I) with diacetylene in a solvent, and compounding the obtained mixed solution on paper to obtain a mixed molecular membrane;

heating the mixed molecular film and then irradiating to obtain test paper;

preferably, the compounding mode is to print the mixed solution on paper by adopting an ink-jet printing mode.

The test paper is prepared by substituting and crosslinking polydiacetylene with phenylboronic acid, can be used for detecting an organic solvent, in the process of detecting the organic solvent, a solvent molecule and a pendant alkyl chain of the polydiacetylene substituted and crosslinked with phenylboronic acid interact with each other, a side chain is disturbed to drive main chain conformation to change, and conjugation length is shortened, so that ultraviolet visible absorption spectrum peak blue shift of the polydiacetylene substituted and crosslinked with phenylboronic acid is caused, and the test paper is observed by naked eyes to show red. Therefore, the test paper provided by the application can directly distinguish the blue-red color conversion degree of the test paper by naked eyes when detecting different solvents, and accordingly, the type of the solvent is judged, and the test paper processed by the solvent can also be qualitatively analyzed by using an ultraviolet-visible absorption spectrum, so that a Colorimetric (CR) value is calculated, and the type of the solvent is judged according to the CR value. Further, the test paper provided by the application can also judge the volume fraction of the component according to the color shift or CR value under the condition that the solvent component is known. On the other hand, the test paper provided by the application has the advantages of simple preparation process, low cost and simple and convenient solvent detection process, and can provide a detection result very quickly.

Drawings

FIG. 1 is a nuclear magnetic spectrum of a phenylboronic acid-substituted diacetylene molecule prepared in example 1;

FIG. 2 is an infrared spectrum of a phenylboronic acid-substituted diacetylene molecule prepared in example 1;

FIG. 3 shows the reaction of the mixed molecular layer on the paper of example 2 by heat treatment at 90 ℃ and subsequent irradiation with UV light;

FIG. 4 is an infrared characterization chart of phenylboronic acid before and after the reaction of substituting the terminal phenylboronic acid group of the diacetylene molecule with phenylboronic acid in example 2;

FIG. 5 is a graph showing the blue-red color transition of the test strip of example 3 after treatment with different solvents;

FIG. 6 is a graph showing the absorption spectra of test strips of example 3 after treatment with different solvents, measured in the UV-visible absorption spectrum;

FIG. 7 is a bar graph of CR values of test strips of example 3 treated with different solvents;

FIG. 8 is a chart showing the blue-red color transition of the test paper of example 4 after the test paper is treated by mixed solvents prepared from n-hexane and chloroform in different proportions;

FIG. 9 is a diagram showing the UV-VIS absorption spectra of the test paper of example 4 before and after treatment with a mixed solvent;

FIG. 10 shows the CR values as a function of f for the test strips of example 4 after treatment with a mixed solvent_vA plot of the variation;

FIG. 11 is a mechanism diagram of detecting solvent by substituting phenyl boric acid for cross-linked polydiacetylene.

Detailed Description

For a further understanding of the invention, reference will now be made to the preferred embodiments of the invention by way of example, and it is to be understood that the description is intended to further illustrate features and advantages of the invention, and not to limit the scope of the claims.

In view of the problem of poor solvent resistance of polydiacetylene, polydiacetylene is improved, phenylboronic acid substituted cross-linked polydiacetylene is prepared, and the polydiacetylene is used for detecting a solvent, so that common solvents can be quickly detected. Specifically, the embodiment of the invention firstly discloses phenylboronic acid substituted cross-linked polydiacetylene, which is obtained by polymerizing phenylboronic acid substituted diacetylene shown as a formula (I) and diacetylene and then performing radiation cross-linking;

in the application, the preparation method of the phenylboronic acid substituted diacetylene specifically comprises the following steps:

under the action of a catalyst, reacting a diacetylene monomer and oxalyl chloride in a solvent to obtain an initial product;

and reacting the initial product with 3-aminophenylboronic acid in an alkaline environment to obtain phenylboronic acid substituted diacetylene.

In the above preparation process, the catalyst is selected from N, N-dimethylformamide, the solvent is selected from dichloromethane, and the basic environment is performed in triethylamine.

The application also provides a preparation method of the phenylboronic acid substituted cross-linked polydiacetylene, which comprises the following steps:

mixing and heating phenylboronic acid substituted diacetylene shown as a formula (I) and diacetylene in a solvent, and irradiating after reaction to obtain phenylboronic acid substituted crosslinked polydiacetylene;

in the above-described process for preparing the phenylboronic acid-substituted crosslinked polydiacetylene, the present application first mixes the phenylboronic acid-substituted diacetylene and the diacetylene in a solvent, which is an organic solvent well known to those skilled in the art, and more specifically, cyclopentanone and tetrahydrofuran, in a volume ratio of 1: 1. The heating temperature is 80-100 ℃, and in this stage, the phenylboronic acid substitutes diacetylene and diacetylene to perform a condensation reaction, as shown in fig. 3. The molar ratio of the phenylboronic acid-substituted diacetylene to the diacetylene is 1 (2.9-3.1), and in a specific embodiment, the molar ratio of the phenylboronic acid-substituted diacetylene to the diacetylene is 1: 3.

After the reaction, performing irradiation, and performing polymerization reaction on the product after the condensation reaction to obtain phenylboronic acid substituted cross-linked polydiacetylene; the irradiation is specifically ultraviolet irradiation of 200-320 nm.

In the process of preparing the phenylboronic acid substituted cross-linked polydiacetylene, condensation is carried out firstly and then cross-linking is carried out, so that the obtained polymer can be applied to detection of an organic solvent, but the phenylboronic acid substituted diacetylene and diacetylene cannot be directly irradiated.

The application also provides test paper which is prepared by substituting the phenylboronic acid for the cross-linked polydiacetylene, and the test paper is specifically used for detecting an organic solvent.

In the present application, the test paper detects the organic solvent, which is well known to those skilled in the art, and in the present application, the organic solvent may be N-hexane, methanol, ethanol, acetone, toluene, chloroform or N, N-dimethylformamide.

The test paper prepared by substituting phenylboronic acid for cross-linked polydiacetylene is blue before detecting an organic solvent, and after different organic solvents are detected by using the test paper, the test paper shows different degrees of blue-to-red conversion due to different reagents, so that the type of the solvent is judged according to the degree of blue-to-red color conversion, namely the detection of the organic solvent is achieved, and specifically, the solvent can be determined by comparing the color of the test paper with a standard colorimetric card; the method can also further test the ultraviolet-visible absorption spectrum according to the test paper to calculate the CR value, and the calculated CR value is compared with the CR value of the solvent due to different CR values of different solvents, so that the solvent can be accurately determined.

The test paper provided by the application can further detect the volume fraction f of one solvent in the two-component mixed solvent with unknown volume fraction_vWhen the test paper is treated by the mixed solvent, the test paper undergoes a certain degree of blue-red color conversion, and f in the mixed solvent can be judged by comparing the color conversion with a standard test paper lyotropic color-changing colorimetric card_vIf f is to be determined more accurately_vThe Colorimetric (CR) value of the test strip can be calculated according to CR-f_vDetermination of the curve to enable detection of the mixed solvent, where f is required_vLess than or equal to 50 percent. In a specific embodiment, the test paper provided by the application can specifically detect mixed solvents of n-hexane and chloroform under different volumes.

The test paper is prepared by substituting phenyl boric acid for cross-linked polydiacetylene, the preparation method of the test paper is carried out according to a method well known by a person skilled in the art, the test paper can be directly compounded with paper after the polymer is prepared, or can be compounded with the paper in the preparation process, and in order to have a better compounding effect, the application also provides a preparation method of the test paper, which comprises the following steps:

mixing phenylboronic acid substituted diacetylene shown in a formula (I) with diacetylene in a solvent, and compounding the obtained mixed solution on paper to obtain a mixed molecular membrane;

heating the mixed molecular film and then irradiating to obtain test paper;

the preparation process specifically carries out the preparation process of the test paper, and the compounding specifically adopts an ink-jet printing technology to print the mixed solution on the paper to obtain the mixed solution molecular membrane. The other processes are the same as the parameters of the phenylboronic acid substituted cross-linked polydiacetylene, and are not described in detail here.

The test paper provided by the application can be used for detecting an organic solvent, in the process of detecting the organic solvent, solvent molecules interact with lateral alkyl chains of the phenylboronic acid substituted and crosslinked polydiacetylene, the side chains are disturbed to drive the main chain conformation to change, and the conjugation length is shortened, so that the ultraviolet visible absorption spectrum peak blue shift of the phenylboronic acid substituted and crosslinked polydiacetylene is caused, and the test paper shows red through naked eye observation (a specific mechanism diagram is shown in fig. 11).

The application provides a phenylboronic acid substitutes cross-linking polydiacetylene test paper is owing to the improvement to polydiacetylene for it can distinguish multiple different solvents, and is further, to mixed solvent, can judge the volume fraction of component under the condition of known its component, and testing process is simple and convenient, can become laboratory common solvent test paper like pH test paper detects pH.

For further understanding of the present invention, the following examples are provided to illustrate the preparation method and application of the phenylboronic acid-substituted cross-linked polydiacetylene according to the present invention, and the scope of the present invention is not limited by the following examples.