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Preparation method of anti-microorganism lotion with long-acting anti-microorganism effect

An effective, long-acting technology, applied in the directions of medical preparations with non-active ingredients, medical preparations containing active ingredients, inorganic non-active ingredients, etc., can solve problems such as short-term effectiveness, achieve good bacteriostatic effect, The effect is long-lasting and effective, and the effect of avoiding repeated infections

Active Publication Date: 2021-02-23
安徽草珊瑚生物科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although the antibacterial lotion prepared by this method has a significant antibacterial effect, it still has short-term effective defects.

Method used

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  • Preparation method of anti-microorganism lotion with long-acting anti-microorganism effect
  • Preparation method of anti-microorganism lotion with long-acting anti-microorganism effect
  • Preparation method of anti-microorganism lotion with long-acting anti-microorganism effect

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preparation example Construction

[0033] A preparation method of an antibacterial lotion with long-acting antibacterial effect, comprising the steps of:

[0034] (1) Treatment of carbon nanotubes:

[0035] a. Immerse the carbon nanotubes in the treatment solution, soak for 2~3h, filter out the carbon nanotubes for later use; wherein the components and corresponding weight percentages in the treatment solution are: sodium glycocholate 7~9%, dioctylsuccinate Sodium sulfonate 4~8%, tartaric acid 2~3%, zinc acetate dihydrate 0.8~1%, glacial acetic acid 0.5~0.9%, hydrochloric acid 1~2%, the balance is deionized water;

[0036] b. Place the carbon nanotubes treated with the treatment solution in operation a on a GJ-1.5 high-frequency, high-voltage, and high-power electron accelerator for electron beam irradiation treatment. The dose of electron beam irradiation treatment is 6~7×10 6 rad / s, the time for electron beam irradiation treatment is 5~7min, take it out for later use after completion;

[0037] c. Place the ...

Embodiment 1

[0049] A preparation method of an antibacterial lotion with long-acting antibacterial effect, comprising the steps of:

[0050] (1) Treatment of carbon nanotubes:

[0051] a. Immerse the carbon nanotubes in the treatment solution, soak for 2 hours, filter out the carbon nanotubes for later use; wherein the components and corresponding weight percentages in the treatment solution are: sodium glycocholate 7%, sodium dioctyl succinate sulfonate 4%, tartaric acid 2%, zinc acetate dihydrate 0.8%, glacial acetic acid 0.5%, hydrochloric acid 1%, the balance is deionized water;

[0052] b. Place the carbon nanotubes treated with the treatment liquid in operation a on a GJ-1.5 high-frequency, high-voltage, high-power electron accelerator for electron beam irradiation treatment. The dose of electron beam irradiation treatment is 6×10 6 rad / s, the time for electron beam irradiation treatment is 5min, take it out for later use after completion;

[0053] c. Place the carbon nanotubes tre...

Embodiment 2

[0064] A preparation method of an antibacterial lotion with long-acting antibacterial effect, comprising the steps of:

[0065] (1) Treatment of carbon nanotubes:

[0066] a. Immerse the carbon nanotubes in the treatment solution, soak for 2.5 hours, filter out the carbon nanotubes for later use; wherein the components and corresponding weight percentages in the treatment solution are: sodium glycocholate 8%, dioctyl succinic acid sulfonic acid Sodium 6%, tartaric acid 2.5%, zinc acetate dihydrate 0.9%, glacial acetic acid 0.7%, hydrochloric acid 1.5%, the balance is deionized water;

[0067] b. Place the carbon nanotubes treated with the treatment solution in operation a on a GJ-1.5 high-frequency, high-voltage, and high-power electron accelerator for electron beam irradiation treatment. The dose of electron beam irradiation treatment is 6.5×10 6 rad / s, the time for electron beam irradiation treatment is 6min, take it out for later use after completion;

[0068] c. Place th...

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Abstract

The invention discloses a preparation method of an anti-microorganism lotion with a long-acting anti-microorganism effect and belongs to preparation methods of anti-microorganism lotions. The preparation method of the anti-microorganism lotion comprises the following steps: (1) treating nano carbon tubes; (2) preparing a traditional Chinese medicine additive; (3) weighing raw materials; and (4) preparing a finished product. The anti-microorganism lotion prepared by the method has a very good anti-microorganism effect on several common pathogenic microorganisms, has the lasting and effective anti-microorganism effects, can effectively avoid a possibility of repeated infection and has a great market application value.

Description

technical field [0001] The invention belongs to the technical field of antibacterial lotion preparation, and in particular relates to a preparation method of an antibacterial lotion with long-term antibacterial effect. Background technique [0002] Vaginitis is a group of diseases that cause vulvovaginal symptoms such as itching, burning pain, irritation, and abnormal discharge. It can be caused by various reasons, related to infection, flora imbalance, and hormone levels. Abnormal leucorrhea. There are many types, and it is necessary to choose the appropriate treatment method according to the specific type, so as not to affect women's fertility, life or health. The antibacterial lotions currently on the market generally only have immediate antibacterial effects, and the effects are not long-lasting, which is prone to the possibility of repeated infections. [0003] For example, the application number is: CN201010133612.X discloses a kind of antibacterial lotion with stron...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61K36/904A61K9/08A61K47/04A61K47/69A61P15/02A61P31/02A61P31/04A61P31/10
CPCA61K36/28A61K36/489A61K36/904A61K36/756A61K9/08A61K47/6949A61K47/02A61P15/02A61P31/02A61P31/04A61P31/10A61K2300/00
Inventor 陈起锐
Owner 安徽草珊瑚生物科技有限公司
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