KR20160121809A - Apparatus for deuterium-related radical production and their mixing in water by making use of plasma - Google Patents

Abstract

The present invention relates to an apparatus for producing a deuterium-related active chemical species and incorporating the same to a solution by using plasma. According to the apparatus for producing a deuterium-related active chemical species and incorporating the same to a solution by using plasma, a gas mixed with heave water molecules is passed through a gap between electrodes generating plasma to generate plasma, the plasma electrons and excited gas molecules carry out decomposition of heavy water molecules to produce deuterium monoxide, the thus produced deuterium monoxide is subjected to resynthesis to obtain deuterium peroxide and deuterium dioxide, and then the thus produced active chemical species are introduced to a waterborne solution to produce a solution of active species.

Description

[0001] Apparatus for deuterium-related radical production and their mixing in water for making use of plasma [0002]

The present invention relates to an apparatus for generating various kinds of active chemical species using plasma, and more particularly, to an apparatus for generating deuterium-related active chemical species in a plasma generated by mixing heavy water with a plasma gas generated by a discharge, And a device for mixing the generated species into a solution based on water.

Plasma Science and Bioscience The three-dimensional fusion of Plasma Science and Bioscience The scope of application of Plasma Bioscience, which is a basic research field, has expanded to various fields of science and technology, explaining the phenomena of various atomic molecular systems according to the interaction between plasma and vital materials, It is necessary to develop a reductive logic that can systemize empirical knowledge. One of the key issues to address these challenges facing scientists is understanding the interaction between bio-plasma and organic materials, biosensitive nanomaterials, plasma-cell interactions, and source interactions with serum. Plasma physics, chemistry, biology, medicine, and electronics are integrated in a new paradigm under the new paradigm to achieve prediction and control of plasma bioscience. At the center of such research and technology development is the generation of atmospheric low-temperature plasma, the generation of various active species in the plasma, and the application of the generated active species to fusion research and technology development.

So far, active chemical species synthesized in low temperature plasma were hydrogen monoxide, nitrogen monoxide, hydrogen peroxide, hydrogen dioxide, etc. These were active chemical species synthesized using gas and water vapor that we could easily access from the environment. Sometimes, however, chemical species generated from materials that are not easily accessible in our daily lives may be used in various fields. In this context, it is necessary to produce new active species using heavy water instead of ordinary water. Therefore, water vapor (D ₂ O) is injected into low-temperature atmospheric plasma to synthesize deuterium monoxide (OD) and re-synthesize the generated deuterium monoxide to produce deuterated hydrogen peroxide (D ₂ O ₂ ) and deuterium dioxide (DO ₂ ). These substances are very strong oxidants and have a profound effect on already active cells such as cancer cells.

Considering these points, it is necessary to study a device and method for generating deuterium related active species in a low-temperature plasma and mixing the generated species into a water-based solution.

It is an object of the present invention to provide a means for generating deuterium related active species in a low temperature plasma and mixing the generated species into a water based solution .

In order to accomplish the above object, the present invention provides a method for generating deuterium monoxide by decomposing heavy water (D ₂ O) molecules by injecting gas into an electrode to generate a low-temperature plasma and using electrons or hooing gas molecules in the generated plasma (D ₂ O ₂ ) and deuterium dioxide (DO ₂ ) by re-synthesizing the produced deuterium deuterium by mass production of deuterium dihydrogen chloride in a stable manner and injecting the active species into the water-based solution It is an invention to mix.

As described above, the present invention can stably produce deuterium monoxide using a low-temperature plasma to provide a base for directly applying the deuterium monoxide to the biochemical field.

The present invention can provide a miniaturized hydrogen peroxide producing device capable of producing deuterated hydrogen peroxide and deuterium dioxide by synthesizing deuterium monoxide generated in a low-temperature plasma.

In addition, the present invention generates various active species related to deuterium and then injects the generated active species into a water-based solution to mix the solution containing the activated species with various cells including cancer cells It is possible to present a new turning point in the cancer treatment through the study of the cell biology.

1 is a block diagram of an apparatus 100 for mixing and deuterium generation of deuterated active species according to one embodiment of the present invention.
FIG. 2 is a photograph of atmospheric pressure nitrogen plasma generated by mixing water vapor with nitrogen gas in an embodiment of the present invention. FIG.
FIG. 3 is a spectroscopic view showing that a trace of deuterium monoxide was detected at a wavelength of 308.9 nm in a spectrum of an atmospheric pressure nitrogen plasma generated by mixing heavy water vapor with nitrogen gas in an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings.

However, this is merely an example and the present invention is not limited thereto.

In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intention or custom of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

The technical idea of the present invention is determined by the claims, and the following embodiments are merely a means for effectively explaining the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs.

FIG. 1 is a block diagram of an apparatus 100 for mixing and generating deuterated active species according to one embodiment of the present invention.

As shown in the figure, the apparatus 100 for generating and mixing deuterated active species according to an embodiment of the present invention includes a heavy water vapor supply unit 10, a gas supply unit 20, a power supply unit 30, A plasma generator 40, an oscillated plasma flame 50, an active species 60, a water-based solution 70, and a bio-application site 80.

The heavy water vapor supply unit 10 generates water vapor by evaporating heavy water (D ₂ O) to generate water vapor, or generates heavy water vapor by evaporating heavy water by passing gas through heavy water.

The gas supply unit 20 supplies gas to be used in the atmospheric plasma generator 30.

The plasma generator 40 is composed of various types of electrodes and generates plasma by electric discharge. The generated plasma flame 50 is basically composed of gas ions, electrons, and excited molecules. High-energy electrons impinge on the heavy water molecules to decompose heavy water molecules to produce deuterium monoxide (OD) ₂ O + e ^- → OD + D + e ^- and the excited gas molecules decompose heavy water molecules to form monoxide deuterium.

The deuterium monoxide (OD) generated as described above may be combined with other deuterium monoxide to synthesize deuterated peroxide (D ₂ O ₂ ), and the reaction may be OD + OD? D ₂ O ₂ , to make the dioxide, deuterium (dO _2), the reaction is _{D 2 O 2 + OD → dO} 2 + D 2 O, in this way are created several types of active species (60).

The active species 60 generated as described above may be directly applied to the living body through the bio-application site 80, and once it is injected into the water-based solution 70, the active species 60 may be mixed with the solution, .

<Examples>

In one embodiment, nitrogen gas was injected into the electrode structure to oscillate atmospheric pressure nitrogen plasma. The structure for generating the low-temperature atmospheric-pressure plasma uses a low-temperature atmospheric-pressure plasma jet structure that is frequently used in this technical field, and a porous dielectric is inserted between the electrodes so that the plasma can be brought into direct contact with the living body, I made a smooth plasma. The plasma jet diameter was about 1 mm and the jet length was about 1.5 cm. Heavy water vapor was mixed with trace nitrogen to produce active species associated with deuterium. FIG. 2 is an atmospheric pressure nitrogen plasma photo generated by mixing heavy water vapor with nitrogen gas in an embodiment of the present invention. The high-energy electrons in the plasma collide with the nitrogen molecules, creating a nitrogen molecule in the excited state of N ₂ (A ₃ Σ ⁺ ). This excited state is a metastable state and remains in this state for a long time. Nitrogen molecules in this state generate deuterium monoxide (OD) through the reaction of N ₂ (A ₃ Σ ⁺ ) + D ₂ O → OD + D + N ₂ . In other words, the excited nitrogen molecule gives the excited energy to the heavy water molecule, decomposes the heavy water molecule, and the nitrogen molecule returns to the lowest energy state. This reaction can proceed very actively in nitrogen gas, making deuterium monoxide relatively easy to make.

It is possible to observe the generation of deuterium monoxide (OD) through the spectroscope. 3 is a spectroscopic view showing that a trace of deuterium monoxide was detected at a wavelength of 308.9 nm in a spectrum of an atmospheric pressure nitrogen plasma oscillated by mixing water vapor with nitrogen gas. In Fig. 3, the amount of heavy water was changed from 0.29% to 0.87% with respect to nitrogen. The spectra of the deuterium deuterium (OD) showed peaks at 307.1 nm, 307.6 nm and 308.9 nm, and the deuterium deuterium spectroscopy was strongest when the heavy water was 0.75% as compared with nitrogen. It means that it is well generated. More heavy water molecules than necessary reduce the quality of the plasma and do not contribute to the synthesis of deuterium monoxide.

In a nitrogen plasma, nitrogen molecules decompose into nitrogen atoms by electrons of high energy. Nitrogen source generated by this process may encounter nitrogen monoxide and generate nitrogen monoxide (NO) through the reaction of N + OD → NO + D. In addition, many other active molecules can be synthesized.

The most molecules in nitrogen plasma are nitrogen molecules (N ₂ ) and then heavy water molecules (D ₂ O). However, these two molecules are not of great interest to us as stable compounds. Due to the large number of nitrogen molecules, the nitrogen molecule is excited to the excited state, and there are a lot of hoopless nitrogen molecules [N ₂ (A ₃ Σ ⁺ )]. The possible active chemical species that can be produced in the nitrogen plasma are listed in the table, together with the possible active species, the reaction formations in which the chemical is produced, and their reaction constants. There are no data on chemical reaction constants for the deuterium reaction equation, so the reaction constants for hydrogen are listed. Because deuterium and hydrogen are very similar in atomic properties, chemical reactions that rely on electronic bonds are thought to be very similar to deuterium compounds. Due to the large number of nitrogen molecules, the nitrogen molecule is excited to the excited state, and there are a lot of hoopless nitrogen molecules [N ₂ (A ₃ Σ ⁺ )]. It can be seen from Table 2 that when the excited nitrogen molecule decomposes the heavy water molecules to generate deuterated oxygen monoxide (OD), various other active species are produced through the active molecule. So the most active chemical species present in the nitrogen plasma are the exhilarating nitrogen molecules [N ₂ (A ₃ Σ ⁺ )], the deuterium monoxide (OD), and the deuterated hydrogen peroxide (D ₂ O ₂ ). The next active species present are deuterium dioxide (DO ₂ ), nitrogen monoxide (NO), deuterated nitric acid (DNO ₃ ), and so on. Deuterium atoms (D), nitrogen hydrides (ND), and double hydrides (ND ₂ ) are the least active chemicals.

Active species Chemical symbol Formation of active compounds Reaction constant Huge nitrogen molecule N ₂ (A ₃ Σ ⁺ ) N ₂ + e ^- → N ₂ (A ₃ Σ ⁺ ) + e ^- 6.4 × 10 ^-12 Deuterated monoxide OD N ₂ (A ₃ Σ ⁺ ) + D ₂ O → OD + N ₂ + D 5 × 10 ^-14 Deuterated hydrogen peroxide D ₂ O ₂ OD + OD? D ₂ O ₂ 1.78 × 10 ^-11 Deuterium dioxide DO ₂ D ₂ O ₂ + OD - DO ₂ + D ₂ O 1.7 × 10 ^-12 Nitrogen atom N N ₂ + e ^- &gt; N + N + e ^- 2.3 × 10 ^-13 Nitrogen monoxide NO N + OD? NO + D 5 × 10 ^-11 Deuterium nitrite DNO ₂ NO + OD → DNO ₂ 1.78 × 10 ^-11 Nitrogen dioxide NO ₂ DNO ₂ + OD? NO ₂ + D ₂ O 5.95 × 10 ^-12 Deuterated nitric acid DNO ₃ NO ₂ + OD → DNO ₃ 8.81 × 10 ^-11 Deuterium atom D N ₂ (A _3? ⁺ ) + D ₂ O? D + OD + N ₂ 5 × 10 ^-14 Daily hydration nitrogen ND D + N → ND 1.3 × 10 ^-12 Double hydration nitrogen ND ₂ ND + ND → ND ₂ + N 4.3 × 10 ^-13

When active species listed in Table present in the nitrogen plasma have been injected with a solution of water based, the excited molecular nitrogen ^{_{[N 2 (A 3 Σ +}} )] was doeyeo encounter a great deal of water molecules Scheme N ₂ (A ₃ Σ ⁺ ) + H ₂ O → OH + N ₂ + H to produce hydrogen monoxide (OH) and disappear. Thus, the depth at which excited nitrogen molecules can penetrate into water is less than 20 nm. Also, the depth of the deuterium deuterium (OD) that can penetrate into the water is about 2 mm. However, deuterium dioxide (D ₂ O ₂ ) and deuterium dioxide (DO ₂ ) penetrate deep into water. In this process, hydrogen peroxide (H ₂ O ₂ ), hydrogen peroxide (HO ₂ ) and the like are produced. Nitrogen monoxide (NO) and deuterium nitric acid (DNO ₃ ) are not present in many plasma but penetrate deep into water.

Based on the results of this study, plasma of heavy water and nitrogen was injected into the normal skin cells and cancerous skin cells in the culture solution for 3 minutes to 5 minutes. When cultured for one day, two days, and three days, the number of normal cells was not reduced compared to the control culture, but the number of cancer cells disappeared more than 80% compared to the control culture. This means that active species produced in heavy water and nitrogen plasma selectively induce cancer cells to die. The induction of apoptosis of the deuterated plasma was more effective than the actinomycin-D used in the cancer treatment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the present invention. I will understand.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by equivalents to the appended claims, as well as the appended claims.

100: Generation of deuterium activated species and mixing device
10: heavy water vapor supply part
20: gas supply part
30: Power supply
40: Plasma generator
50: Plasma flame
60: active species
70: Water-based solution
80: biomedical application site
N ₂ : Nitrogen molecule
Heavy Water: heavy water
Metastable state
D ₂ O: heavy water molecule
N ₂ (A ₃ Σ ⁺ ): Excited nitrogen molecule
OD: Deuterium monoxide
D ₂ O ₂ : deuterated peroxide
DO ₂ : Deuterium dioxide
N: nitrogen atom
NO: nitrogen monoxide
DNO ₂ : Deuterium nitrite
NO ₂ : nitrogen dioxide
DNO ₃ : Deuterium nitrate
D: deuterium atom
ND: Nitrogen hydrate nitrogen
ND ₂ : Double Nitrogen Nitrogen
e ^- : Electronic
H ₂ O: water molecule
OH: Hydrogen monoxide
H ₂ O ₂ : hydrogen peroxide
HO ₂ : hydrogen peroxide

Claims (8)

A power supply unit for supplying power to the plasma generator;
A gas supply unit for supplying a gas necessary for the plasma generator;
A heavy water vapor supply unit supplying heavy water vapor to the plasma generator;
A solution based on water to inject active species generated in a plasma flame oscillated in the plasma generator;
An apparatus for mixing with the generation and deuteration of deuterated active species using a plasma, comprising a bio-application site adapted to apply the active species directly to a living body or to apply a solution containing the active species to a living body.
The method according to claim 1,
Wherein the plasma generator comprises a plurality of types of electrode structures and receives electric power from the power supply unit to generate plasma by electric discharge.
The method according to claim 1,
The median steam supply unit and the median (D ₂ O) the evaporation by heating the heavy water as a site to create steam to create a steam or by passing the gas into the heavy water evaporation of the heavy water and deuterium using a plasma, including the creation of a water vapor Apparatus for mixing the active species with the generation of solutions.
The method according to claim 1,
Wherein the required gas comprises nitrogen, oxygen and an inert gas or a mixed gas of nitrogen, the oxygen and the inert gas,
The method according to claim 1,
The water-based solution is a device for mixing deuterated water or distilled water with a solution containing various nutrients necessary for the living body to generate and deuterium active species using a plasma.
Introducing nitrogen, oxygen, or an inert gas directly into a plasma generator in the generation of active species associated with deuterium using a plasma to expose the plasma to an electric field;
Mixing a heavy water vapor with the nitrogen, oxygen, or inert gas to form a plasma flame containing a heavy water molecule;
A process in which a nitrogen molecule is brought into a metastable state in a plasma flame;
A process of decomposing heavy water molecules in the plasma flame to produce deuterated monoxide (OD);
A process in which the deuterium monoxide is re-synthesized to regenerate various kinds of active species;
Injecting the active species into a water-based solution and mixing them into the solution;
Wherein the deuterium active species is plasma generated and mixed with the solution. The method according to claim 6,
The metastable state of the nitrogen molecule generally refers to the excited state of a nitrogen molecule, described by N ₂ (A ₃ Σ ⁺ ), in which the deuterated active species are plasma generated and mixed with the solution. The method according to claim 6,
The various active species are selected from the group consisting of an excited nitrogen molecule [N ₂ (A ₃ Σ ⁺ )], deuterium oxide (OD), deuterated hydrogen peroxide (D ₂ O ₂ ), deuterium dioxide (DO ₂ ) A method for mixing with a solution of deuterated active species using plasma, including nitrogen monoxide (NO), deuterium nitrous acid (DNO ₂ ), nitrogen dioxide (NO ₂ ), deuterated nitric acid (DNO ₃ ) and the like.

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