CN114503983A - Preparation method and application of ionic oxygen disinfectant - Google Patents

Abstract

The invention discloses a preparation method and application of an ionic oxygen disinfectant, wherein the preparation method comprises the following steps: firstly, adding deionized water into a sterilized container; adding solid oxygen, an EDTA2 sodium protective agent, a polyvinyl alcohol protective agent, water-soluble nano titanium, a separation aid and a metal catalyst one by one, and uniformly mixing to fully dissolve; covering with a cover, slightly ventilating, dissolving all the materials gradually, dissolving a large amount of fine oxygen bubbles in water gradually, and storing at below 33 deg.C. The ion oxygen disinfectant has the innovative characteristics that: the effective concentration is very low (0.03%), the dosage is small, the final products of oxidation are carbon dioxide and water, no harmful by-products are left, and the disinfectant is the safest, efficient and multipurpose product in the current disinfectants; compared with similar strong oxidizers, the strong oxidizers are safe, have more dosage forms, are suitable for a wide range of application, and have the advantages that the common temperature is changed (0-40 ℃), the pH value of an article is not influenced, and the cost price is lower than that of a market article.

Description

Preparation method and application of ionic oxygen disinfectant

Technical Field

The invention relates to the field of sanitation and disinfection, in particular to a preparation method and application of an ionic oxygen disinfectant.

Background

"oxygen" is closely related to life, is unnecessary and has strong effect, and chemical research has already clarified that almost all organic matters can be vigorously combusted in oxygen to generate carbon dioxide and water. I.e. can be inactivated against almost all complex microorganisms. However, the oxygen in the air in nature generally has a slow and not strong enough oxidation sterilization effect, and a high-tech treatment is required to improve the strong oxidation effect of the oxygen.

The oxygen-containing strong oxidants currently used in the market are: peracetic acid, chlorine peroxide, hydrogen peroxide and ozone, which are all very effective against a wide variety of pathogenic bacteria, fungi and viruses. But has not been widely used during current epidemic situations. The main reasons are that the strong oxidants are unsafe and unstable and damage human bodies and objects. The application range and conditions are limited, etc. Therefore, the composite material structure of the strong oxidant is researched and improved, the characteristics of oxidizing and efficiently killing bacteria and toxins are kept, toxic and side effects and defects are removed, the composite material can be widely used, and the composite material plays a role in epidemic situations.

Disclosure of Invention

It is an object of the present invention to provide a method for producing an ionic oxygen disinfectant which separates oxygen bound in a fixed oxide to form ionic oxygen having a energetically stable strong oxidizing action, rather than negative oxygen ions.

The technical scheme for realizing the purpose of the invention is as follows:

the invention relates to an ionic oxygen disinfectant, which comprises the following raw materials in parts by weight:

solid oxygen 6-10

Metal catalyst 0.1-0.3

0.1-0.5% of separation aid

Polyvinyl alcohol protective agent 0.2-0.5

EDTA2 sodium protective agent 1.0-2.0

Water soluble nano titanium 0.5-1.0

86-94 parts of deionized water.

The solid oxygen in the formula is 3.5 solid oxygen.

The metal catalyst in the formulation comprises copper, manganese and platinum.

The auxiliary release agent in the formula is 101 auxiliary release agent, and the dosage of the auxiliary release agent can be increased or decreased with the dosage according to the use condition.

The preparation method of the ionic oxygen disinfectant comprises the following steps:

(1) adding 20 parts by weight of deionized water into a sterilized container;

(2) adding solid oxygen, and slowly waiting for dissolution;

(3) adding an EDTA2 sodium protective agent, and uniformly mixing with the deionized water obtained in the step (1) to fully dissolve the EDTA2 sodium protective agent;

(4) adding a polyvinyl alcohol protective agent and 20 parts by weight of deionized water, and uniformly mixing to fully dissolve;

(5) adding water-soluble nano titanium and 20 parts by weight of deionized water, and uniformly mixing to fully dissolve the water-soluble nano titanium and the deionized water;

(6) adding a separation aid and 20 parts by weight of deionized water, and uniformly mixing to fully dissolve;

(7) adding a metal catalyst and the rest deionized water, and uniformly mixing to fully dissolve;

(8) covering with a cover, slightly ventilating, dissolving all the materials gradually, dissolving a large amount of fine oxygen bubbles in water gradually, and storing at below 33 deg.C.

The above-mentioned compounding process can not be heated.

The invention also aims to provide application of the ionic oxygen disinfectant, and the dosage form and the application method thereof are as follows:

(1) solid: can be subpackaged, broadcast sowed, fumigated, added with water at any time and converted into liquid;

(2) liquid: preparing the solution with various concentrations, and is suitable for different purposes, such as spraying, atomizing, wiping and soaking;

(3) colloid: the slow release of the coating is prepared.

The ion oxygen disinfectant has the innovative characteristics that:

(1) the method separates oxygen bound in the fixed oxide to form ionic oxygen with a multi-energy stable strong oxidation effect, but not negative oxygen ions, which cannot be mixed.

(2) The effective concentration is very low (0.03%), the dosage is small, the final products of oxidation are carbon dioxide and water, no harmful by-products are left, and the disinfectant is the safest, efficient and multipurpose product in the current disinfectants;

(3) compared with similar strong oxidizers, the strong oxidizers are safe, have more dosage forms, are suitable for a wide range of application, and the pH value of an article is not influenced when the common temperature is changed (0-40 ℃);

(4) compared with medical disinfecting alcohol, 84 disinfectant, benzalkonium bromide and the like commonly used in the market, the disinfectant has the advantages of good and lasting effect, wide application range, no peculiar smell, safety, good sense, and the like, and the cost price is lower than that of market products.

Drawings

FIG. 1 is a reference diagram of a rapid sterilization test in an example of application of the present invention.

Detailed Description

The invention is further illustrated by the following examples, which are not intended to limit the scope of the invention.

Example (b):

the invention relates to a preparation method of an ionic oxygen disinfectant, which comprises the following steps:

(1) preparing materials: the following raw materials are respectively weighed according to the weight portion: 3.5 solid oxygen 6-10, metal catalyst (copper, manganese and platinum) 0.1-0.3, 101 separation aid 0.1-0.5, polyvinyl alcohol protective agent 0.2-0.5, EDTA2 sodium protective agent 1.0-2.0, water-soluble nano titanium 0.5-1.0, and deionized water 86-94;

(2) adding solid oxygen, slowly dissolving, and not heating

(3) Adding 20 parts by weight of deionized water into a sterilized pure transparent container;

(4) adding an EDTA2 sodium protective agent, and uniformly mixing with the deionized water obtained in the step (1) to fully dissolve the EDTA2 sodium protective agent;

(5) adding a polyvinyl alcohol protective agent and 20 parts by weight of deionized water, and uniformly mixing to fully dissolve;

(6) adding water-soluble nano titanium and 20 parts by weight of deionized water, and uniformly mixing to fully dissolve the water-soluble nano titanium and the deionized water;

(7) adding a separation aid and 20 parts by weight of deionized water, and uniformly mixing to fully dissolve;

(8) adding a metal catalyst and the rest deionized water, and uniformly mixing to fully dissolve;

(9) covering with a cover, slightly ventilating, dissolving all the materials gradually, dissolving a large amount of fine oxygen bubbles in water gradually, and storing at below 33 deg.C.

The above-mentioned compounding process can not be heated.

The application example is as follows: application of ionic oxygen

Dosage forms and methods of use:

❶ solid: can be subpackaged, broadcast sowed, fumigated, added with water at any time and converted into liquid;

❷ liquid: preparing the solution with various concentrations, and is suitable for different purposes, such as spraying, atomizing, wiping and soaking;

❸ colloid: the slow release of the coating is prepared.

Brief description of the application

(1) Preventive disinfection, 0.3-0.6% of ion oxygen water, and is used in office, meeting room, classroom, ward, movable room, vehicle and other indoor places. The experimental group is tried on the bus, and after the guest finishes, close door and window, arrange 3 culture dish points, after 15 minutes with the ion oxygen water spraying, open the plate and contact with the air, cultivate the detection, do not discover the live bacteria, no pungent smell in the car, no peculiar smell.

(2) Rapidly disinfecting the epidemic rooms: firstly, conveying solid combined powder to a destination, adding tap water into a powder bag (5 kilograms of water/bag), quickly spraying a large amount of nascent oxygen, and immediately connecting spray disinfection; ② spraying with 1 percent of ionized oxygen water. Can quickly kill pathogen and block transmission.

(3) 0.5-0.6% of ionized oxygen water is sprayed, wiped, soaked and disinfected. The sterilization device is used for sterilizing express delivery pieces on trial, and does not damage articles and packages.

(4) 0.6-0.8% of the disinfectant is superior to alcohol and other disinfectants in cleaning and disinfecting by wiping fingers, and has long lasting effect, smoothness and no bad stimulation. The product is used for students and shopping staff to clean and disinfect the fingers of hundreds of people, and has good reaction.

(5) 0.5% of ionized oxygen water, eliminating indoor chemical pollution and purifying air

Safety of ion oxygen sterilization

1. Skin, mucous membrane: before the nasal cavity or the gum is wiped by soaking 0.2-0.6% ionized oxygen water in a cotton swab, the nasal cavity or the gum has no irritation and pain.

2. An object: ❶ no damage and no color change after three days of observation of 0.5% ionic oxygen water spraying of textile (cotton, hemp, thread, silk, chemical fiber); ❷ stainless steel, wooden furniture, electric fan, 0.5% spraying, and observing for three days without damage.

3. The ingredients of the ingredients are safe and nontoxic when being checked

Ionic oxygen water antibacterial test for antibacterial effect

(one), quick sterilization (blind second kill) test: (as shown in figure 1) the uncleaned fingers were moved up and down and wiped with ionized oxygen water; no. 5 indicates that the wiping is performed by diluting 5 times by using ionized oxygen water; number 4 refers to wipe with 75% alcohol; one finger (No. 3) was not wiped with anything, the other finger (No. 6) was wiped with ionized oxygen diluted 21 times with pure water, and cultured rapidly for 24 hours, and it was observed that the fingers No. 1, 2, 5 wiped with ionized oxygen water and the finger No. 4 wiped with sterilized alcohol were aseptically grown, and the finger No. 3 and the finger No. 6 diluted 21 times were overgrown with bacteria, and the test was repeated 5 times, the test showed that: firstly, the ionic oxygen can be quickly sterilized; ② the sterilization is ineffective after diluting the sterilized alcohol, the rapid sterilization effect is still achieved after diluting 5-10 times of the sterilized alcohol by the ion oxygen, and the efficacy is superior to that of the alcohol.

And (II) antibacterial test, namely mixing Escherichia coli, staphylococcus aureus and candida albicans suspensions with sample ionic oxygen liquid for 5 minutes respectively for neutralization, culturing for 24 hours, and observing the result: no viable bacteria exist (all are killed), the test is repeated for 5 times, the effect is the same, and the sterilization effective rate is confirmed to be more than 99 percent.

And (III) antibacterial minimum effective concentration test, namely diluting the ionic oxygen solution by 1: 16,1:32,1:64. 1:128, (1: 256 is not observed) and each bacterial liquid are mixed and cultured for 24 hours in sequence, and the observation result shows that no viable bacteria exist (all are killed), the test is repeated for 3 times, and the sterilization effective rate of 65-128 times (the minimum effective concentration is 0.03%) of dilution can be determined to be more than 99%.

(IV) coating test: diluting the suspension of escherichia coli, staphylococcus aureus and candida albicans at a ratio of 1:10, coating and culturing for 24 hours, counting the number of the viable bacteria: escherichia coli > 300cfu/ml, staphylococcus aureus 36cfu/ml and candida albicans > 1000cfu/ml, wherein the ionic oxygen solution is mixed with the suspension of each bacterium in a dilution ratio of 1:10 respectively, and coating observation is carried out, so that no existing viable bacteria exist, and the list is as follows:

note: the sample is sent to a national institution for detection, and the sterilization efficiency is more than 99 percent.

Claims (6)

1. An ionic oxygen disinfectant is characterized in that: comprises the following raw materials in parts by weight:

solid oxygen 6-10

Metal catalyst 0.1-0.3

0.1-0.5% of separation aid

Polyvinyl alcohol protective agent 0.2-0.5

EDTA2 sodium protective agent 1.0-2.0

Water soluble nano titanium 0.5-1.0

86-94 parts of deionized water.

2. The ionic oxygen disinfectant as set forth in claim 1, wherein: the solid oxygen is 3.5 solid oxygen.

3. The ionic oxygen disinfectant as set forth in claim 1, wherein: the metal catalyst includes copper, manganese, and platinum.

4. The ionic oxygen disinfectant as set forth in claim 1, wherein: the separation aid is 101, and the dosage of the separation aid can be increased or decreased according to the using condition.

5. A method of preparing an ionic oxygen disinfectant as claimed in any one of claims 1 to 4, comprising the steps of:

(1) adding 20 parts by weight of deionized water into a sterilized container;

(2) adding solid oxygen, and slowly waiting for dissolution;

(3) adding EDTA2 sodium protectant, mixing, and dissolving completely;

(4) adding a polyvinyl alcohol protective agent and 20 parts by weight of deionized water, and uniformly mixing to fully dissolve;

(5) adding water-soluble nano titanium and 20 parts by weight of deionized water, and uniformly mixing to fully dissolve the water-soluble nano titanium and the deionized water;

(6) adding a separation aid and 20 parts by weight of deionized water, and uniformly mixing to fully dissolve;

(7) adding a metal catalyst and the rest deionized water, and uniformly mixing to fully dissolve;

(8) covering with a cover, slightly ventilating, dissolving all the materials gradually, dissolving a large amount of fine oxygen bubbles in water gradually, and storing at below 33 deg.C.

6. The application of an ionic oxygen disinfectant comprises the following dosage forms and application methods:

(1) solid: can be subpackaged, broadcast sowed, fumigated, added with water at any time and converted into liquid;

(2) liquid: preparing the solution with various concentrations, and is suitable for different purposes, such as spraying, atomizing, wiping and soaking;

(3) colloid: the slow release of the coating is prepared.

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