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Method for preparing mono dispersed micrograde polymer microsphere

A micron-scale, polymer technology, applied in the field of preparation of monodisperse micron-scale polymers, can solve the problems of difficult to obtain monodisperse polymer microspheres, small particle size of microspheres, large heat consumption, etc., to avoid secondary Nucleation and process requirements are simple, and the effect of improving monodispersity

Inactive Publication Date: 2006-12-13
SHANGHAI HUAMING HI TECH GRP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] People such as Huang Wenqiang of Nankai University (patent application number: 200410072867.4) adopt the method for distillation precipitation polymerization to prepare monodisperse nano / micro polymer microspheres, but adopt this method to prepare monodisperse microspheres and need to distill off a large amount of solvents, the heat consumption is large, and there are certain difficulties in the process of amplification;
[0004] Gu Zhongze et al. of Southeast University (patent application number: 200510037918.4) adopt the method of soap-free emulsion polymerization, use water or water-alcohol azeotropic system as solvent, carry out polymerization under boiling state, obtain monodisperse polymer microsphere, insufficient When water is used as the medium, the particle size of the microspheres is small
The polymerization reaction in the solution system may precipitate out of the solution with the increase of the molecular weight of the polymer to form secondary particles, making it difficult to obtain monodisperse polymer microspheres

Method used

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  • Method for preparing mono dispersed micrograde polymer microsphere
  • Method for preparing mono dispersed micrograde polymer microsphere
  • Method for preparing mono dispersed micrograde polymer microsphere

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] In a 250mL four-necked reaction flask with a condenser, add 60g of absolute ethanol, 30g of styrene, 0.3g of AIBN, and 1.2g of PVP K-30 to form a transparent solution. Pass N 2 After 15 minutes, the reaction system was heated to raise the temperature to 70°C. When the temperature rises to 70°C, start timing. After the reaction was carried out for 1 hour, 1 mL of a 10 g / L ethanol solution of p-benzoquinone was added. The reaction was continued for 12 hours and stopped. Separate the obtained emulsion with a centrifuge, remove the supernatant, add ethanol and water to wash, repeat several times, and finally dry the product at low temperature to obtain a polymer microsphere sample with a particle size of 3.6 μm and a dispersion coefficient of 1.10. Good dispersion. SEM photo see figure 1 .

Embodiment 2

[0029] In a 250mL four-necked reaction flask with a condenser, add 60g of 95% ethanol, 15g of styrene, 0.2g of AIBN, and 0.6g of PVP K-30 to form a transparent solution. Pass N 2 After 15 minutes, the reaction system was heated to raise the temperature to 75°C. start the timer. After the reaction was carried out for 2 hours, 0.5 mL of a 10 g / L ethanol solution of p-benzoquinone was added. The reaction was continued for 12 hours and stopped. Separate the obtained emulsion with a centrifuge, remove the supernatant, add ethanol and water to wash, repeat several times, and finally dry the product at low temperature to obtain a polymer microsphere sample with a particle size of 3.1 μm and a dispersion coefficient of 1.04. Good dispersion.

Embodiment 3

[0031] In a 250mL four-necked reaction flask with a condenser, add 60g of anhydrous methanol, 20g of methyl methacrylate, 0.2g of AIBN, and 1.0g of PVP K-30 to form a transparent solution. Pass N 2 After 15 min, the reaction temperature was raised to 70 °C. Start timing, and after the reaction has been carried out for 2 hours, add 1 mL of a 10 g / L ethanol solution of p-benzoquinone. After the reaction was continued for 12 hours, the reaction was stopped. Centrifuge the obtained emulsion, remove the supernatant, add ethanol and water to wash, repeat several times, and finally dry the product at low temperature to obtain a polymer microsphere sample with a particle size of 2.4 μm, a dispersion coefficient of 1.02, and a monodisperse it is good.

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Abstract

The invention discloses the preparing method of monodisperse micron-size polymer microballoon. The method comprises the following steps: adding organic solvent containing monomer, initiating agent and dispersing agent into inhibitor at 50-80Deg.C, carrying out reaction for 10-14 hours, getting the product. The invention obtains the monodisperse microballoon whose diameter is 1- 10 mum.

Description

technical field [0001] The invention relates to a preparation technology of a monodisperse micron-scale polymer, and the microsphere can be applied to the fields of standard metering, chromatographic packing, chemical analysis and the like. Background technique [0002] Due to its special size requirements and wide application, monodisperse microspheres have been studied a lot on their preparation methods, and the preparation methods involved are also various. For monodisperse microspheres with a size of micron, the usual preparation methods are seed swelling polymerization and dispersion polymerization. The main disadvantage of seed swelling polymerization is that the process cycle is long and the steps are complicated. The dispersion polymerization method can obtain monodisperse polymer microspheres by one-step process, so it has attracted people's attention. [0003] People such as Huang Wenqiang of Nankai University (patent application number: 200410072867.4) adopt the...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08F2/06C08F12/08C08F20/10C08F4/04C08F4/32C08F2/44
Inventor 杨景辉张洁华吴秋芳马新胜
Owner SHANGHAI HUAMING HI TECH GRP
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