CN113207902A - CAZ physical black cluster family harmful microorganism and virus resisting technology - Google Patents

Abstract

The invention discloses a technology for resisting harmful microorganisms and viruses by using CAZ physical black cluster families, which comprises the following steps: selecting an original substrate, performing professional cleaning on the original substrate, and then putting the cleaned original substrate into a shelf in a vacuum dust-free chamber; then, pumping the chamber to high vacuum (< 10-4Pa) by using a turbo molecular pump, and then carrying out baking precipitation treatment; selecting a high-density physical substance (3ox) as a medium bridge in the ion reaction process, and selecting a substance (4O2) with extremely high purity as a reaction bridging group ion for reaction synthesis; the ion reactor is adopted, and the separation stability is controlled by using quantum number transfer abutment working skills in the working process of the ion reactor, so that the direction of inorganic physical substances is always kept at a constant value, and the reduction of the risk of bacterial and toxic infection in clinical application of drinking water, medical equipment, medical instruments, human implants and the like is facilitated. The invention has wide application prospect in the fields of professional medical treatment, drinking water, food, cosmetics and the like in the future.

Description

CAZ physical black cluster family harmful microorganism and virus resisting technology

Technical Field

The invention belongs to the technical field of harmful microorganisms and viruses, and relates to a technology for resisting harmful microorganisms and viruses by using CAZ physical black cluster families.

Background

Bacterial and micro-viral contamination has long been an important problem facing our lives. Attempts have been made to reduce the risk of bacterial infection in public and medical environments in order to prevent the growth, spread and transfer of harmful microorganisms and micro-viruses. With the rapid development of medical care and the improvement of the living standard of people, it is important to develop a new material surface with long-term antibacterial and antivirus capabilities, and simultaneously, not generate multi-drug resistant microorganisms.

Disclosure of Invention

In order to achieve the purpose, the invention adopts the following technical scheme:

CAZ physical black cluster family harmful microorganism and virus resisting technology, pretreatment: selecting an original substrate, performing professional cleaning on the original substrate, and then putting the cleaned original substrate into a shelf in a vacuum dust-free chamber; then, pumping the chamber to high vacuum (< 10-4Pa) by using a turbo molecular pump, and then carrying out baking precipitation treatment; selecting a high-density physical substance (3ox) as a medium bridge in the ion reaction process, and selecting a substance (4O2) with extremely high purity as a reaction bridging group ion for reaction synthesis; an ion reactor is adopted, and the separation stability is controlled by using quantum number transfer bridge group working skill in the working process of the ion reactor, so that the direction of inorganic physical substances is always kept at a constant value; breaking and separating the bridge group ion elements, removing pollutants on the surface of the original base material, ensuring the consistency and uniformity of the aperture, and adjusting the chain density of the permeating physical components by controlling each sampling group; 4ox ion elements and 3ox physical cluster families are grafted to the CAZ four groups or CAZ7 cluster families in situ to form a compound permeation precision (120% oo), so that the inactivation effect is enhanced, and the permeation density range is enlarged; all the free ranges are carried out in 2 compartments of the ion reactor (compartment pressure value: less than 3X 10-4 Pa); in the process of dissociating molecules, the working pressure of a No. 3 cabin is usually-0.2 Pa, and in addition, a high-frequency pulse wave mode is adopted to inject a trace amount of CAZ3oo cluster group (3ox) into a No. 4 cabin or a No. 5 cabin to realize the stripping of high and low layers by plasma without interrupting the separation process of the No. 2 cabin; due to the layering efficiency rise caused by the injection of the trace 3ox cluster group of the No. 4 cabin and the No. 5 cabin (new combined arrangement CAZ0.2x is generated instantly), the 3ox atom cluster group and the 4ox cabin or No. 5 cabin atoms are collided and exploded for many times, and then free CAZ1 atoms or CAZ3 atoms are rapidly condensed to grow into the initial form of the final CAZ physical cluster group; according to the arrangement condition, a part of small CAZ cluster groups are self-assembled to form atomic particles of infiltration element No. 1 or bottom surface No. 1, and the atomic particles are embedded in the physical substance; rapidly removing the unwanted miscellaneous inorganic substances at the bottom layer through the No. 7 cabin, and continuously carrying out the stripping recombination of the CAZ1 No. and the CAZ2 No. under the normal condition in the original No. 2 cabin and the No. 4 cabin; thus, a physical cluster group of CAZ1 and CAZ2 containing 3ox and 4ox ion particles is synthesized on the substrate; the addition density value and distribution of the CAZ0.2x are controllable; the inorganic matter in the matrix is arranged and recombined to play a role in bearing and protecting the atom particles of the CAZ physical cluster family, and the fission rate of the inorganic ions is controlled to finally generate the CAZ physical black cluster family.

The invention has the beneficial effects that: in the invention, the physical light wave ion reactor technology is adopted to prepare inorganic physical substance permeation on various inorganic physical substances. Transition organic oxides such as ternary quantum (6 < x < 8) particles exhibit effective antimicrobial deactivation properties. However, no attempt has been made to separate rare quantum 3x elements and three quantum well 4OX permeation techniques by physical ion reactor devices. The tissue synthesis, microstructure and morphology of the permeation can be changed by controlling stripping conditions (such as stack eccentricity, gas partial pressure, bias voltage, separation temperature and the like), so that the mechanical, tribological and electrochemical properties of the permeability and strength, the inactivation of harmful microorganisms above 2nm and the like can be adjusted. In addition, a certain amount of three-digit quantum Cells (CAZ) can permeate into physical matters by utilizing the mode that multiple physical inorganic substances participate in the eccentricity reaction together to form an ultra-precise substance combination body, so that the microorganism inactivation efficiency is greatly enhanced, and the time can be shortened to 10 seconds 1²cm. The inactivation rate to common harmful microbes and viruses is more than 99.99 percent, the deep layer strength of physical substances can reach more than 30GPa, and the durability can be enhanced by more than 120 times. The CAZ physical substance cluster group has multiple functions of strong wear resistance, strong corrosion resistance, strong harmful bacteria and virus resistance and the like. The concentration and density of the CAZ material is generally in the range of the ion element, depending on the direction of use requirements. The CAZ physical blackcurrant cluster group has no toxicity to cells of a living body and cannot cause any damage to tissues of the living body. After 3ox (30 at.%) or three ionic elements (40 at.%) are added to the amorphous substance of CAZ, new bonding (CAZ sigma) is generated³) Forming a novel array combination number 3 physical substance CAZ.03, and enhancing the ability of inhibiting and blocking the reproduction of bacteria and viruses on the surface. Furthermore, 4OX²The elements can also be inhibited by biological enzymes, ecological transformation of microbial communities and restriction of bacteria to reduce the growth of bacteriaAnd viral activity to affect their biological metabolic tissue structure. Is beneficial to reducing the risk of bacterial and toxic infection of drinking water, medical equipment, medical instruments, human implants and the like in clinical application. The invention has wide application prospect in the fields of professional medical treatment, drinking water, food, cosmetics and the like in the future.

Detailed Description

It should be understood that the described embodiments are merely exemplary of the present application and are not intended to limit the present application to the particular embodiments disclosed herein. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the embodiment of the invention, the CAZ physical black cluster family anti-harmful microorganism and virus technology comprises the following pretreatment steps: selecting an original substrate, performing professional cleaning on the original substrate, and then putting the cleaned original substrate into a shelf in a vacuum dust-free chamber; then, pumping the chamber to high vacuum (< 10-4Pa) by using a turbo molecular pump, and then carrying out baking precipitation treatment; selecting a high-density physical substance (3ox) as a medium bridge in the ion reaction process, and selecting a substance (4O2) with extremely high purity as a reaction bridging group ion for reaction synthesis; an ion reactor is adopted, and the separation stability is controlled by using quantum number transfer bridge group working skill in the working process of the ion reactor, so that the direction of inorganic physical substances is always kept at a constant value; the free permeation process of CAZ includes three main steps: ion element stripping and precipitation, physical cluster material structure arrangement and recombination, and material tissue density link strength maintenance; breaking and separating the bridge group ion elements, removing pollutants on the surface of the original base material, ensuring the consistency and uniformity of the aperture, and adjusting the chain density of the permeating physical components by controlling each sampling group; 4ox ion elements and 3ox physical cluster families are grafted to the CAZ four groups or CAZ7 cluster families in situ to form a compound permeation precision (120% oo), so that the inactivation effect is enhanced, and the permeation density range is enlarged; all the free ranges are carried out in 2 compartments of the ion reactor (compartment pressure value: less than 3X 10-4 Pa); in the process of dissociating molecules, the working pressure of a No. 3 cabin is usually-0.2 Pa, a constant numerical equation display mass flow Controller (CFW) outputs the working pressure, and in addition, a high-frequency pulse wave mode is adopted to inject a trace amount of CAZ3oo cluster group (3ox) into a No. 4 cabin or a No. 5 cabin to realize plasma stripping of high and low layers without interrupting the separation process of the No. 2 cabin; due to the layering efficiency rise caused by the injection of the trace 3ox cluster group of the No. 4 cabin and the No. 5 cabin (new combined arrangement CAZ0.2x is generated instantly), the 3ox atom cluster group and the 4ox cabin or No. 5 cabin atoms are collided and exploded for many times, and then free CAZ1 atoms or CAZ3 atoms are rapidly condensed to grow into the initial form of the final CAZ physical cluster group; according to the arrangement condition, a part of small CAZ cluster groups are self-assembled to form atomic particles of infiltration element No. 1 or bottom surface No. 1, and the atomic particles are embedded in the physical substance; small cluster families generate very short combination times (in the pulse wave mode). Then, rapidly removing the unwanted miscellaneous inorganic substances at the bottom layer through the No. 7 cabin, and continuously carrying out the stripping recombination of the CAZ1 No. and the CAZ2 No. under the normal conditions in the original No. 2 cabin and the No. 4 cabin; thus, a physical cluster group of CAZ1 and CAZ2 containing 3ox and 4ox ion particles is synthesized on the substrate; the addition density value and distribution of the CAZ0.2x are controllable; inorganic matters in the matrix are arranged and recombined to play a role in bearing and protecting atom particles of the CAZ physical cluster family, the fission rate of the inorganic ions is controlled, and the CAZ physical black cluster family is finally generated; to maintain long term high intensity inactivation rate against harmful microorganisms and viruses, and to greatly enhance durability and reliability.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (1)

1. A CAZ physical black cluster technology for resisting harmful microbes and viruses,

   pretreatment: selecting an original substrate, performing professional cleaning on the original substrate, and then putting the cleaned original substrate into a shelf in a vacuum dust-free chamber; then, pumping the chamber to high vacuum (< 10-4Pa) by using a turbo molecular pump, and then carrying out baking precipitation treatment; selecting a high-density physical substance (3ox) as a medium bridge in the ion reaction process, and selecting a substance (4O2) with extremely high purity as a reaction bridging group ion for reaction synthesis; an ion reactor is adopted, and the separation stability is controlled by using quantum number transfer bridge group working skill in the working process of the ion reactor, so that the direction of inorganic physical substances is always kept at a constant value; breaking and separating the bridge group ion elements, removing pollutants on the surface of the original base material, ensuring the consistency and uniformity of the aperture, and adjusting the chain density of the permeating physical components by controlling each sampling group; 4ox ion elements and 3ox physical cluster families are grafted to the CAZ four groups or CAZ7 cluster families in situ to form a compound permeation precision (120% oo), so that the inactivation effect is enhanced, and the permeation density range is enlarged;

   all the free ranges are carried out in 2 compartments of the ion reactor (compartment pressure value: less than 3X 10-4 Pa); in the process of dissociating molecules, the working pressure of a No. 3 cabin is usually-0.2 Pa, and in addition, a high-frequency pulse wave mode is adopted to inject a trace amount of CAZ3oo cluster group (3ox) into a No. 4 cabin or a No. 5 cabin to realize the stripping of high and low layers by plasma without interrupting the separation process of the No. 2 cabin; due to the layering efficiency rise caused by the injection of the trace 3ox cluster group of the No. 4 cabin and the No. 5 cabin (new combined arrangement CAZ0.2x is generated instantly), the 3ox atom cluster group and the 4ox cabin or No. 5 cabin atoms are collided and exploded for many times, and then free CAZ1 atoms or CAZ3 atoms are rapidly condensed to grow into the initial form of the final CAZ physical cluster group;

   according to the arrangement condition, a part of small CAZ cluster groups are self-assembled to form atomic particles of infiltration element No. 1 or bottom surface No. 1, and the atomic particles are embedded in the physical substance;

   rapidly removing the unwanted miscellaneous inorganic substances at the bottom layer through the No. 7 cabin, and continuously carrying out the stripping recombination of the CAZ1 No. and the CAZ2 No. under the normal condition in the original No. 2 cabin and the No. 4 cabin; thus, a physical cluster group of CAZ1 and CAZ2 containing 3ox and 4ox ion particles is synthesized on the substrate; the addition density value and distribution of the CAZ0.2x are controllable; the inorganic matter in the matrix is arranged and recombined to play a role in bearing and protecting the atom particles of the CAZ physical cluster family, and the fission rate of the inorganic ions is controlled to finally generate the CAZ physical black cluster family.