Preparation method and application of macropore-mesoporous silicon dioxide hollow micro-sphere

A technology of mesoporous silica and hollow microspheres, applied in the directions of silica, silica, pharmaceutical formulations, etc., can solve the problems of short effective action time, short sustained release period, low drug loading, etc., and achieve excellent The effect of slow release

Inactive Publication Date: 2008-07-09
BEIJING UNIV OF CHEM TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the Chinese Patent Application No. 200610117755.5, which is named as a synthetic method of porous silica hollow microspheres, a method for preparing silica hollow microspheres by using a one-step emulsification method to obtain an oil / water / oil double emulsion as a template is proposed , but the diameter of the microspheres prepared by this method and the controllability of the hollow pore size are not good; H.J.Liu et al. In the middle water phase of the water / oil double emulsion, the cuprous oxide hollow microspheres were prepared by reacting under the action of microwave; M.H.Lee et al. Add ethyl orthosilicate to the prepared oil / water / oil double emulsion to react to form silica hollow microspheres
However, in the current drug loading methods, most of the silica carriers used are pure mesoporous materials, and the internal and external pores of the carrier are all mesoporous structures, which makes it difficult for the drug to enter the surface pores of the carrier during the drug loading process. The large mass transfer driving force is used to realize the further loading of the drug, so that the final loading of the drug is not high, the sustained release period is short, and the effective action time of the drug is short, which cannot meet the needs

Method used

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  • Preparation method and application of macropore-mesoporous silicon dioxide hollow micro-sphere
  • Preparation method and application of macropore-mesoporous silicon dioxide hollow micro-sphere
  • Preparation method and application of macropore-mesoporous silicon dioxide hollow micro-sphere

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Experimental program
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Effect test

Embodiment 1

[0048] (1) 0.3g oil-soluble surfactant sorbitan monooleate is dissolved in 4ml cyclohexane to form the inner oil phase O 1 , wherein the concentration of the oil-soluble surfactant is about 0.075g / ml; 0.5g of the water-soluble surfactant polyoxyethylene sorbitan monolaurate and 0.267g of P123 are dissolved in 10ml of hydrochloric acid with a mass fraction of 8% Prepare water phase W, wherein the concentration of water-soluble surfactant is about 0.05g / ml, and the concentration of polymer P123 is about 0.0267g / ml; another 3g of sorbitan monooleate is dissolved in 10ml of n-decyl alcohol O 2 , wherein the concentration of oil-soluble surfactant is about 0.3g / ml;

[0049] (2) Under strong stirring, add the inner oil phase to the water phase to form O 1 / W single emulsion, wherein the volume ratio of the internal oil phase to the water phase is 1: 2.5;

[0050] (3) Mix 1ml of O prepared in step (2) 1 / W single emulsion is added dropwise in the outer oil phase, the volume ratio...

Embodiment 2

[0055] The operating parameters are similar to Example 1, except that the O in the external oil phase is added 1 The volume of the / W single emulsion is 2ml, the volume ratio of the oil / water single emulsion to the outer oil phase is 1: 5, and the addition of tetraethyl orthosilicate is 1.4ml (according to 25% of the water phase mass), the resulting macropores -Mesoporous silica microspheres have an average diameter of 11.41μm, a mesopore diameter of 4.3nm, and a specific surface area of ​​352m 2 / g.

Embodiment 3

[0057] (1) Dissolve 0.2g of oil-soluble surfactant sorbitan monooleate in 3ml of n-hexane to form the inner oil phase O 1 , wherein the concentration of oil-soluble surfactant is about 0.067g / ml; 0.5g water-soluble surfactant polyoxyethylene sorbitan monolaurate and 0.4g P123 are dissolved in 10ml mass fraction of 5% hydrochloric acid Prepare water phase W, wherein the concentration of water-soluble surfactant is about 0.05g / ml, and the concentration of polymer P123 is about 0.04g / ml; another 1g of sorbitan monooleate is dissolved in 10ml of n-decyl alcohol O 2 , wherein the concentration of oil-soluble surfactant is about 0.1g / ml;

[0058] (2) Under strong stirring, add the inner oil phase to the water phase to form O 1 / W single emulsion, wherein the volume ratio of the internal oil phase to the water phase is about 1: 3.3;

[0059] (3) Mix 1ml of O prepared in step (2) 1 / W single emulsion is added dropwise in the outer oil phase, the volume ratio of the oil / water singl...

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Abstract

Disclosed are a preparation method and application of macroporous-mesoporous silicon dioxide hollow microsphere, which relate to the field of inorganic materials preparation and pesticide application. The process of materials preparation includes adding templates P123 in aqueous phase, after generating steady oil-water-oil dual emulsion, adding silica source tetraethyl ortho-silicate TEOS, producing hydrolysis under the effect of precipitant, generating silicon dioxide hollow microsphere, after filtering and drying, the product of the invention can be produced via calcining in 550 DEG C for 6 hours. The silicon dioxide hollow microsphere of the invention has macroporous structure and mesoporous structure. Through the mesoporous structure of the microsphere wall, realizing the communication between the hollow inside of the microshere and the outside. The invention also relates to the application in area of release carrier of the materials as avermectin drugs, the prepared release controlling agent has perfect long-acting slow release performance.

Description

technical field [0001] The invention belongs to the fields of inorganic material preparation and pesticide application, and specifically relates to a macroporous-mesoporous silicon dioxide hollow microsphere, a preparation method thereof, and an application thereof as a slow-release drug carrier. Background technique [0002] Hollow microspheres have attracted widespread attention due to their special structure and morphology. Hollow silica microsphere material is a new type of inorganic porous material. Due to its unique hollow structure, the density of the material is reduced, the specific surface area is increased, and it has high purity, low density, surface silanol groups and active silane Bonds can form hydrogen bonds of different strengths and other special properties, and the cost is low, and the preparation process is relatively simple, so they are widely used in rubber, pesticides, medicine, papermaking, plastic processing, coatings, insulation, heat insulation, ca...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01B33/12C01B33/18A61K47/04A61K31/7048
Inventor 文利雄侯添陈建峰
Owner BEIJING UNIV OF CHEM TECH
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