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Kalium phosphocreatine and chemosynthesis method thereof

A technology of potassium creatine phosphate and sodium creatine phosphate, which is applied in the field of creatine phosphate potassium and its chemical synthesis, can solve the problems that creatine phosphate cannot achieve the best external environment, absorption is not ideal, and the purity is not high enough to achieve recovery High efficiency, improved purity, and reasonable process conditions

Inactive Publication Date: 2008-06-25
何晶
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there are still many unsatisfactory aspects in the practice process, such as the problem of insufficient purity, the problem of unsatisfactory absorption, and the problem that creatine phosphate cannot achieve the best external environment when it plays its role, etc.

Method used

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  • Kalium phosphocreatine and chemosynthesis method thereof
  • Kalium phosphocreatine and chemosynthesis method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] Sodium Creatine Phosphate 1%

[0033] Potassium chloride 0.5%

[0034] The organic solvent is absolute ethanol.

[0035] The chemical synthesis method is: take 1 mole of creatine phosphate sodium in a beaker, add 200ml of water to make it dissolve into a 5% solution, and set aside; select a positive resin 723 column with a diameter of 2 cm, add 3% hydrochloric acid solution to soak the resin, and make it Completely wet; add sodium creatine phosphate to the resin column several times to make it fully adsorbed and replace creatine phosphate: add 0.5 mole of potassium chloride to the replaced creatine phosphate solution, and stir while adding to make it Dissolve completely; Concentrate the solution until a white viscous solid appears, add a small amount of absolute ethanol, precipitate, rotate to evaporate until there is no distillate, take out the viscous solid, and dry it in vacuum at 65°C for 15 hours to obtain creatine phosphate potassium. The yield was 71.4%.

Embodiment 2

[0037] Sodium Creatine Phosphate 1%

[0038] Potassium chloride 0.75%

[0039] The organic solvent is absolute ethanol.

[0040] The chemical synthesis method is: take 1 mole of creatine phosphate sodium in a beaker, add 200ml of water to make it dissolve into a 5% solution, and set aside; select a positive resin 723 column with a diameter of 2 cm, add 3% hydrochloric acid solution to soak the resin, and make it Completely wet; then add creatine phosphate sodium into the resin column several times to make it fully adsorbed and replace creatine phosphate: add 0.75 moles of potassium chloride to the replaced creatine phosphate solution, and stir while adding to make it Dissolve completely; Concentrate the solution until a white viscous solid appears, add a small amount of absolute ethanol, precipitate, rotate to evaporate until there is no distillate, take out the viscous solid, and dry it in vacuum at 65°C for 15 hours to obtain creatine phosphate potassium. The yield was 75...

Embodiment 3

[0042] Sodium Creatine Phosphate 1%

[0043] Potassium chloride 1%

[0044] The organic solvent is ethanol

[0045] The chemical synthesis method is: take 1 mole of creatine phosphate sodium in a beaker, add 200ml of water to make it dissolve into a 5% solution, and set aside; select a positive resin 723 column with a diameter of 2 cm, add 3% hydrochloric acid solution to soak the resin, and make it Completely wet; then add creatine phosphate sodium into the resin column several times to make it fully adsorbed and replace creatine phosphate: add 1 mole of potassium chloride to the replaced creatine phosphate solution, and stir while adding to make it Dissolve completely; Concentrate the solution until a white viscous solid appears, add a small amount of absolute ethanol, precipitate, rotate to evaporate until there is no distillate, take out the viscous solid, and dry it in vacuum at 65°C for 15 hours to obtain creatine phosphate potassium. The yield was 78.9%.

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Abstract

The invention discloses a phosphocreatine potassium. According to the mole percentage, the component and content comprises 1 per cent of phosphocreatine sodium and 0.5 to 1 per cent of potassium chloride; and the rest of the component and content is organic solvent. The chemical reaction equation is (as shown in the graph). The invention increases purity quotient of effective ingredients, allows the effective ingredients to stay in an ideal environment and ensures the effective ingredients to be fully absorbed by a user. The invention has reasonable process conditions, simple and safe operation and high recovery rate.

Description

technical field [0001] The invention relates to a nutritional product and a chemical synthesis method thereof, in particular to creatine phosphate potassium and a chemical synthesis method thereof. Background technique [0002] Phosphate creatine (PHOSPHAGENHP) is the preferred sports supplement for strength and speed athletes. It has been recognized by many users since it was introduced to the market. Phosphate creatine has obvious effects on increasing athletes' physical fitness and improving sports performance. Taking it Safe and effective, no side effects. However, there are still many unsatisfactory aspects in practice, such as the problem of insufficient purity, the problem of unsatisfactory absorption, and the problem that creatine phosphate cannot achieve the best external environment when it plays its role, and so on. Contents of the invention [0003] The present invention just develops a kind of creatine phosphate potassium in order to solve the above-mentioned...

Claims

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Application Information

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IPC IPC(8): C07F9/22A23L1/30
Inventor 何晶
Owner 何晶