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Preparation method of regulatable and controllable strawberry-like silicon dioxide-organic hybrid composite microspheres

A silicon dioxide and organic hybrid technology, applied in the fields of inorganic, organic and polymer materials, can solve the problems of complex synthesis methods and cumbersome steps, and achieve the effect of simple preparation methods

Inactive Publication Date: 2019-07-09
HEBEI UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although the above method can synthesize strawberry-like particles, the synthesis method is complicated and the steps are cumbersome

Method used

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  • Preparation method of regulatable and controllable strawberry-like silicon dioxide-organic hybrid composite microspheres
  • Preparation method of regulatable and controllable strawberry-like silicon dioxide-organic hybrid composite microspheres
  • Preparation method of regulatable and controllable strawberry-like silicon dioxide-organic hybrid composite microspheres

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] Example 1: Strawberry-shaped silica-polystyrene hybrid composite microspheres using absolute ethanol and deionized water as solvents

[0038] (1) Preparation of 400nm silica particles

[0039] Utilize according to patent CN101691426A -Fink-Hohn synthesis method, at room temperature, add 140g of absolute ethanol, 30g of ammonia water with a mass fraction of 25%, and 30.5g of distilled water in sequence in a 500mL three-necked flask equipped with electric stirring. Add 20.6g ethyl orthosilicate and react at room temperature for 8h. The resulting suspension was transferred to a beaker, and the solvent was naturally volatilized completely to obtain a silica colloidal crystal template with an average particle size of 400 nm, and the template was ground in a mortar to obtain silica nanoparticles.

[0040] figure 2 It is a photo obtained by scanning 400nm silica particles with a model FEI Nano SEM 450 scanning electron microscope. It can be seen from the picture that the ...

Embodiment 2

[0044] Example 2: Strawberry-shaped silica-polystyrene hybrid composite microspheres using absolute ethanol and deionized water as solvents

[0045] (1) The preparation of 400nm silica nanoparticles is the same as step (1) in Example 1;

[0046] (2) Take 0.15 g of the silica nanoparticles obtained in the dried step (1) in a four-necked bottle, add 10.2 mL of absolute ethanol and 23.8 mL of deionized water, and place the four-necked bottle in an ultrasonic cleaner, Ultrasonic treatment for 1 h at 100 W power, transfer the reaction system to an oil bath equipped with mechanical stirring for stirring at a speed of 300 rpm and argon gas for 30 min, then add 400 μL (ie 0.3636 g) of argon at a rate of one drop every 3 seconds Styrene monomer, after heating up to 70°C, add 2mL of potassium persulfate (KPS) aqueous solution with a mass fraction of 1% at a rate of one drop every 3 seconds for 7 hours, after the reaction stops, naturally cool down to 20-30°C, and centrifuge at 6000rpm ...

Embodiment 3

[0048] Example 3: The strawberry-like silica-poly 4-fluorostyrene hybrid composite microspheres (1) 400nm silica nanoparticles are prepared in the same steps as in Example 1 with absolute ethanol and deionized water as solvents ( 1);

[0049] (2) Take 0.15 g of the silica nanoparticles obtained in the dried step (1) in a four-necked bottle, add 10.2 mL of absolute ethanol and 23.8 mL of deionized water, and place the four-necked bottle in an ultrasonic cleaner, Ultrasonic treatment for 1 h at 100 W power, transfer the reaction system to an oil bath equipped with mechanical stirring for stirring at a speed of 300 rpm and argon gas for 30 min, then add 400 μL (0.4096 g) of argon at a rate of one drop every 3 seconds 4-Fluorostyrene monomer, after heating up to 70°C, add 2mL potassium persulfate (KPS) aqueous solution with a mass fraction of 1% at a rate of one drop every 3 seconds for 7 hours, and naturally cool down to 20-30°C after the reaction stops. Centrifuge at 6000 rpm a...

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Abstract

The invention relates to a preparation method of regulatable and controllable strawberry-like silicon dioxide-organic hybrid composite microspheres. The method comprises the following steps: mixing silicon dioxdie nanoparticles, an organic solvent and deionized water, and performing ultrasonic dispersion to obtain a mixed solution; adding a monomer into the reaction system, performing heating to 50-80 DEG C, and adding an initiator aqueous solution dropwise into the reaction system; and after the reaction is completed, naturally cooling the system to 20-30 DEG C, and washing the reaction product by adopting anhydrous ethanol to obtain the strawberry-like hybrid composite microspheres. According to the method provided by the invention, methods for preparing strawberry-like particles are expanded, the strawberry-like hybrid composite microspheres using the inorganic particle silicon dioxide as a core and an organic polymer as surface convex particles are obtained, surface modification ofthe silicon dioxide core particles is not required, so that the preparation method is simple and easy to implement.

Description

technical field [0001] The technical solution of the present invention relates to the fields of inorganic, organic and polymer materials, in particular to a method for preparing adjustable strawberry-like silica-organic hybrid composite microspheres. Background technique [0002] Anisotropic particles (asymmetric or anisotropic particles, or Janus particles) refer to particles with asymmetric shape / chemical composition and uneven distribution. With the development of science and technology and the deepening of research, people have successfully prepared acorn-shaped, strawberry-shaped, snowman-shaped, patch-shaped and other hybrid composite microspheres. Among them, strawberry-like hybrid composite microspheres can be divided into strawberry-like organic-inorganic hybrid composite microspheres according to their composition (Wang R K, Liu H R, Wang F W. Facile Preparation of Raspberry-Like Superhydrophobic Polystyrene Particles via Seeded Dispersion Polymerization[J ].Langm...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J13/02B01J13/14C08F112/08C08F112/14
CPCB01J13/02B01J13/14C08F112/08C08F112/14
Inventor 张旭杜亚险王小梅
Owner HEBEI UNIV OF TECH