KR102486751B1 - A manufacturing method for Hydrogen Water with silica nano particles having embedded zinc and curcumin particles - Google Patents

Abstract

The present invention relates to a manufacturing method for injecting hydrogen or oxygen gas using zinc- and curcumin-supported silica nanoparticles to the inside and outside of pores of silica nanoparticles of a porous structure. By simplifying a manufacturing process, processes become simple, and there are effects of achieving both convenience in use and economic feasibility for sustainable use at the same time. Moreover, the method can maximize the dissolved amount of hydrogen in the body and the efficacy thereof, and is expected to be widely applied in the medical field as well as in the bio-related application market that has been applied in the past.

Description

Method for producing hydrogen water using porous silica nanoparticles loaded with curcumin and zinc {A manufacturing method for Hydrogen Water with silica nano particles having embedded zinc and curcumin particles}

The present invention relates to a method for producing hydrogen water by utilizing curcumin particles and zinc-supported silica nanoparticles, and more particularly, to silica nanoparticles supported with curcumin and zinc particles on the inside and outside of porous silica pores. It relates to a manufacturing method for producing hydrogen water by inserting curcumin into water and then injecting hydrogen.

Recently, nanotechnology (NT) is rapidly developing nano-fusion technology combined with technologies such as biotechnology (BT) and information communication (IT). It is used for technology development in various fields such as selective delivery of drugs, separation, purification and analysis of blood and genes. In particular, hydrogen is used as a raw material for hydrogen vehicles and the like, and its use is expanding. In addition, a hydride using curcumin is used for hydrogen generation and storage. As an example, in Registered Patent Publication No. 10-2071455, curcumin having a melting point of 180 ° C or higher is hydrogenated in a solvent in the presence of a solid catalyst to form a curcumin hydride. In the method for continuously producing, hydrogenation is performed in a state in which the hydrogen adsorption efficiency of the solid catalyst is compensated for in the hydrogenation reactor, including the step of circulating the hydrogen gas discharged from the hydrogenation reactor as part of the curcumin raw material introduced into the hydrogenation reactor. A method for producing curcumin hydride is disclosed in which the reaction is performed, the pressure of the hydrogenation reactor is controlled within the range of 1 to 10 bar, and the temperature of the hydrogenation reactor is controlled within the range of 50 to 60 ° C.

In addition, Patent Publication No. 10-2016-0022754 discloses a method for preparing hydrogen molecule-dissolved water, and Patent Publication No. 2012-0040957 discloses the effect and production method of curcumin derivatives.

On the other hand, as a conventional patent technology in which silica is used in a hydrogen generating system, Publication No. 10-2011-0133615 discloses a hydrogen generating system and method using sodium silicide and sodium silica gel materials, and Registration No. 10-0837195 discloses silica - Catalysts comprising alumina and their use in hydrocracking of hydrocarbon feedstocks are disclosed.

However, the above conventional techniques have disadvantages in that the manufacturing process is complicated, the use is inconvenient, and the hydrogen holding effect is weak, so hydrogen is released during long-term use and storage, and the effect is reduced.

The present invention simplifies the manufacturing process of hydrogen water using silica nanoparticles loaded with curcumin and zinc on the inside and outside of porous silica pores, so that the manufacturing process is simple, convenient in use, and economically sustainable. It aims at providing the manufacturing method characterized.

The present invention relates to a method for producing hydrogen water using porous silica nanoparticles loaded with curcumin and zinc, comprising the steps of preparing a mold solution by adding curcumin powder to an aqueous alcohol solution;

a second step of continuously adding zinc complex compound-adhered porous silica nanoparticles to the template solution prepared in step 1 to prepare curcumin complex compound-adhered silica nanoparticles;

It is characterized in that it consists of; three steps of drying the curcumin complex compound-adhered silica nanoparticles.

In the second step, the zinc complex compound-fixed porous silica nanoparticles are continuously added to the template solution, and the curcumin complex compound-fixed silica nanoparticles are prepared while stirring in a reduced pressure method.

In addition, it is characterized in that the curcumin-zinc complex adhering silica nanoparticles that have undergone the above three steps are contained in water and nano-bubbled hydrogen and oxygen gas are injected.

The silica nanoparticles carrying curcumin and zinc particles according to the present invention are dispersed and inserted into the pores of the porous silica nanoparticles to simplify the manufacturing process. It has the effect of achieving economic feasibility at the same time, and not only maximizes the effect of capturing hydrogen of curcumin in silica nanoparticles, but also continuously expresses its efficacy unlike conventionally applied hydrogen water of the reduced pressure method. There is a remarkable effect that can be widely applied in the medical field beyond the related application market.

1 is a manufacturing process diagram of the present invention

The present invention relates to a method for producing hydrogen water using porous silica nanoparticles loaded with curcumin and zinc, comprising the steps of preparing a mold solution by adding curcumin powder to an aqueous alcohol solution;

a second step of continuously adding zinc complex compound-adhered porous silica nanoparticles to the template solution prepared in step 1 to prepare curcumin complex compound-adhered silica nanoparticles;

It is characterized in that it consists of; three steps of drying the curcumin complex compound-adhered silica nanoparticles at 35 to 45 degrees for about 15 minutes.

In addition, the aqueous solution used in the first step is characterized in that it is an alcohol aqueous solution.

In addition, the curcumin powder is characterized in that the fermented one is used.

In addition, the fermentation treatment is characterized by fermentation in a fermentor for 24 hours.

In addition, in step 2, the zinc complex compound-adhered porous silica nanoparticles are added to the template solution, and the curcumin complex compound-adhered silica nanoparticles are prepared while stirring in a reduced pressure method.

In addition, in the third step, the curcumin complex compound-adhered silica nanoparticles are dried at 35 to 40 ° C. for 12 to 20 minutes.

In addition, it is characterized by injecting nano-bubbled hydrogen and oxygen gas into the water containing the curcumin-zinc complex adhering silica nanoparticles.

The present invention will be described in detail with reference to the accompanying drawings. 1 is a manufacturing process diagram of the present invention.

In the method for producing hydrogen water using porous silica nanoparticles loaded with curcumin and zinc of the present invention, a mold solution is prepared by adding curcumin powder ([HOC ₆ H ₃ (OCH ₃ )CH=CHCO] ₂ CH ₂ ) to an aqueous alcohol solution. step 1;

Zinc complex compound-adhered porous silica nanoparticles (Zn(NO3)6H2O) were added to the template solution prepared in step 1 above, and curcumin complex compound-adhered silica nanoparticles (Zn-(Si(OH)3)-[HOC ₆ H ₃ (OCH) ₃ ) CH=CHCO] ₂ CH ₂ ) 2 steps to prepare;

A third step of drying the curcumin complex compound-fixed silica nanoparticles at 35 to 40° C. for about 30 minutes to 1 hour.

As the aqueous solution used in the first step, an aqueous alcohol solution is used. The mixing ratio is 80 to 90 in alcohol solution: 10 to 20 in weight ratio of silica nanoparticles with curcumin complex.

In addition, the curcumin powder of the present invention can be fermented, and the fermentation process is fermented with beneficial bacteria, useful microorganisms, and probiotics, and fermented in a fermenter for 24 hours or more to improve the quality of the product.

Further, in the second step of the present invention, the zinc complex compound-adhered porous silica nanoparticles are added to the template solution, and in particular, the curcumin complex compound-adhered silica nanoparticles are prepared while stirring while lowering the pressure in a reduced pressure method. This is to increase the external pressure to improve the effect of encapsulating curcumin in the porous structure in the silica in the form of reduced pressure. The vacuum pressure is 35 bar to 45 bar. The mixing ratio is 92 to 97 of the template solution: 3 to 8 of the curcumin complex compound-fixed silica nanoparticles in weight ratio.

The third step is a process of drying the curcumin complex compound-adhered silica nanoparticles at 35 to 40° C. for 30 minutes to 1 hour. The optimum temperature and drying time are 35 minutes at 39℃. If the outside temperature exceeds 40℃ in the drying process, discoloration of curcumin may occur, and if it is too low, it will not dry. Drying time is about 30 minutes to 1 hour. Drying is insufficient if less than 30 minutes, and quality deteriorates if it exceeds 1 hour.

On the other hand, in the present invention, 10 to 500 mg of the prepared curcumin-zinc complex adhering silica nanoparticles is added to 10 L of water and stirred as the following 4 steps. In addition, nano-bubbled hydrogen or oxygen gas is injected into the water containing the curcumin-zinc complex-adhered silica nanoparticles in five stages. Therefore, arginine and curcumin can be well adsorbed on highly reactive zinc, and molecules with strong electronegativity N (nitrogen) and O (oxygen) in arginine and curcumin have hydrogen atoms between adjacent molecules. The resulting electrostatic attraction attracts hydrogen and additionally becomes a structure capable of confining hydrogen by the porous structure of silica nanoparticles.

The present invention is to produce hydrogen water by utilizing the curcumin and zinc-supported porous silica nanoparticles. Alternatively, it is prepared by injecting nanobubbled hydrogen or oxygen gas through a nanobubble device into drinkable water in which porous zinc silica particles carrying L-arginine are dispersed.

The water mixture solution treated by the above steps 4 and 5, containing curcumin-zinc complex-fixed silica nanoparticles and infused with hydrogen and oxygen gas, not only maximizes the efficacy of curcumin, but also continuously expresses its efficacy. There is an increased effect of

On the other hand, in the present invention, L-arginine can be added together with or instead of curcumin, and the amount of twice the amount of curcumin is added. In other words, if 10mg~500mg of curcumin was used in manufacturing, arginine, a substance whose molar mass corresponds to about half of curcumin's action effect, needs to be used in 20mg to 1000mg, which is twice the amount, to see the same effect as curcumin. there is.

Claims (3)

Step 1 of preparing a mold solution by adding curcumin powder to an aqueous alcohol solution;
a second step of continuously adding zinc complex compound-adhered porous silica nanoparticles to the template solution prepared in step 1 to prepare curcumin complex compound-adhered silica nanoparticles;
Consisting of three steps of drying the curcumin complex compound-adhered silica nanoparticles,
In the second step, the zinc complex compound-fixed porous silica nanoparticles are added to the template solution, while stirring in a reduced pressure method to prepare the curcumin complex compound-fixed silica nanoparticles,
In the method for producing hydrogen water using porous silica nanoparticles loaded with curcumin and zinc, in which the curcumin-zinc complex adhering silica nanoparticles passed through the above three steps are contained in water and nano-bubbled hydrogen or oxygen gas is injected,
The aqueous solution used in the first step is an alcohol aqueous solution, and the mixing ratio is 80 to 90 alcohol aqueous solution: 10 to 20 curcumin complex compound-adhered silica nanoparticles in weight ratio,
In the second step, the zinc complex compound-fixed porous silica nanoparticles are added to the template solution, and the curcumin complex compound-fixed silica nanoparticles are prepared while stirring by lowering the pressure in a reduced pressure method. The vacuum pressure is 35 bar to 45 bar, and the mixing ratio is by weight Template solution 92 to 97: curcumin complex compound adhering silica nanoparticles 3 to 8,
The third step is a process of drying the curcumin complex compound-adhered silica nanoparticles at 35 to 40 ° C. for 30 minutes to 1 hour,
In the next step, step 4, the prepared curcumin-zinc complex compound-fixed silica nanoparticles are stirred by adding 10 to 500 mg to 10L of water, and the curcumin-zinc complex compound-fixed silica nanoparticles are nano-bubbled in the water containing the nanoparticles. Method for producing hydrogen water using porous silica nanoparticles loaded with curcumin and zinc, characterized by injecting hydrogen or oxygen gas in the next step, step 5 delete delete

Images