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Silicon ion complex organized with carboxylic acid, method for manufacturing complex, and product using same

A technology of silicon ions and complexes, applied in the directions of non-active ingredients medical preparations, medical preparations containing active ingredients, organic chemistry, etc., can solve the problems of plants unable to fully absorb nutrients, weak roots, and less harvest.

Active Publication Date: 2021-08-17
韩国新技术株式会社 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0019] If there is no such mineral component in the soil, even if other types of fertilizers are abundantly given, the plants cannot fully absorb the nutrients, the roots will be weak, the growth will be slow, and the harvest will be reduced.

Method used

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  • Silicon ion complex organized with carboxylic acid, method for manufacturing complex, and product using same
  • Silicon ion complex organized with carboxylic acid, method for manufacturing complex, and product using same
  • Silicon ion complex organized with carboxylic acid, method for manufacturing complex, and product using same

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0202] [Example 1] Preparation experiment using a sodium sodium citric acid

[0203] Utty sodium gillylate (NA 2 SiO 3 · 9h 2 O) Perform an organic ionization experiment.

[0204] During the process,

[0205] (1) 20 g of citric anhydride 20g in 500 mL beaker.

[0206] (2) and, the pH is adjusted to base 8.0 by sodium carbonate (which is carried out due to the impact of pH without pH in neutral sodium alkaline state, in order to prevent insoluble impurities due to pH impact ).

[0207] (3) In the mechanical stirring environment, slowly dissolve the sodium silicate (NA) 2 SiO 3 · 9h 2 O) 20g (hygroscopicity and heat absorption during dissolution).

[0208] (4) The organized silicon ion complex prepared is stabilized in a transparent solution, and the 2 g of 20 g is sufficiently dissolved in 500 mL (the amount of pure die ion is exchanged, equivalent to about 3.954 g / L).

[0209] (5) The prepared organic silicon ion complex was separated, and the stability was reduced to pH ≤ 1.5 o...

Embodiment 2

[0215] [Example 2] Preparation experiment with the use of sodirate organic ionic complex by malic acid

[0216] Utty sodium gillylate (NA 2 SiO 3 · 9h 2 O) Perform an organic ionization experiment.

[0217] During the process,

[0218] (1) 20 g of malic acid was dissolved in 500 mL beaker.

[0219] (2) and, the pH is adjusted to base 8.0 by sodium carbonate (which is carried out due to the impact of pH without pH in neutral sodium alkaline state, in order to prevent insoluble impurities due to pH impact ).

[0220] (3) Under mechanical stirring, slowly dissolve the sodium silicate (NA) 2 SiO 3 · 9h 2 O) 20g (hygroscopicity and heat absorption during dissolution). The higher the temperature of the dissolved silicate, the dissolution rate is fast. It is more suitable for increasing the binding force of the organic acid, it is more suitable for slowly dissolving at a low temperature.

[0221] (4) The organized silicon ion complex prepared is stabilized in a transparent solution, and ...

Embodiment 3

[0224] [Example 3] Preparation experiment with a sodirate organic ionic complex of tartaric acid

[0225] Utty sodium gillylate (NA 2 SiO 3 · 9h 2 O) Perform an organic ionization experiment.

[0226] During the process,

[0227] (1) 40 g of tartaric acid was dissolved in 500 mL beaker.

[0228] (2) The step of adjusting the pH is omitted.

[0229] (3) Under mechanical stirring, slowly dissolve the sodium silicate (NA) 2 SiO 3 · 9h 2 O) 40g.

[0230] (4) Organized silicon ion complex is stabilized in a transparent solution, and 40 g is sufficiently dissolved in 500 mL and maintain ionic state (in the amount of pure die ion), it corresponds to about 7.908 g / l). For the problem of dissolving such a number of silicates, it is necessary to further study after the problem of solubilic acid.

[0231] (5) Separation of the organified silicon ion complex 100 mL, after the 250 ml beaker is filled, the stability is confirmed by the 37% hydrochloric acid reagent below pH ≤ 1.5 or less. Con...

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Abstract

The present invention relates to a technique related to ionization of silicon, which organizes and ionizes silicon with a water-soluble silicate by using a tricarboxylic acid or a dicarboxylic acid. This technology enables the manufacture and supply of products containing an organized silicon ion complex in various fields, including electrochemical fields, as well as food and pharmaceutical products including drinking water and beverages. In particular, it is expected that various diseases due to lack of silicon minerals can be treated and prevented by organizing and supplying silicon which does not exist as an ion in nature.

Description

Technical field [0001] The present invention relates to the production method of organogenic silicon ion complexes and complexes of carboxylic acid and a product utilized. Background technique [0002] In addition to oxygen (O), carbon (C), hydrogen (H), and nitrogen (N) in addition to oxygen (O), carbon (C), hydrogen (H), and nitrogen (N). Mineral. It is also called ash. 96% of the elements contained in the human body were the top four elements, and the inorganic quality only accounted for 4% of the whole. Among them, the amount is more quantity is calcium (CA), phosphorus (P), potassium (K), sulfur (S), sodium (Na), chlorine (Cl), magnesium (Mg), and other trace ingredients (FE) , Copper (Cu), manganese (Mn), iodine (I), cobalt (CO), zinc (Zn), molybdenum (Mo), selenium (SE), chromium (Cr), fluorine (F), boron (B) , Arsenic (AS), Tin (Sn), Silicon (Si), Vanadium (V), Nickel (Ni), Titanium (Ti), Zirconium (Zr), and the like. [0003] That is, 96% of the elements contained in the...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C02F1/68C05F11/00C05D9/00A61K33/00A61K47/12A23L33/10A61P3/02
CPCA23L33/10A61K33/00A61P3/02C02F1/68C05D9/00C05F11/00A23L3/00C02F1/66C02F2303/04C05F11/10A61K47/12A23V2250/06A23V2002/00A23V2200/32A23L3/28C07F7/025
Inventor 尹种吾
Owner 韩国新技术株式会社