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Preparation method of dual-ion collaboration crosslinking rapid self-healing type bacteriostasis hydrogel

A hydrogel and dual-ion technology, applied in the field of materials, can solve problems such as incomplete healing, poor mechanical properties, and harsh healing conditions

Inactive Publication Date: 2018-07-31
YANSHAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

And most conventional hydrogels do not exhibit more than two characteristics at the same time, for example, they have excellent self-healing properties but poor mechanical properties
However, some hydrogels with good mechanical properties still have some disadvantages in terms of self-healing ability, including: 1) the healing process occurs in a non-autonomous manner and usually requires harsh healing conditions such as high temperature, pH, etc.; 2) the healing is not complete. , which means that the mechanical properties of the healed samples are usually lower than those of the pristine samples; 3) Some uncertainties in the healing process and the biocompatibility of the polymers used to make hydrogel devices still exist, so there is an urgent need to Developing a new strategy to improve the mechanical strength and self-healing properties of hydrogels and enhance self-healing properties

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0013] First, 0.3g of agar and 1.0g of polyvinyl alcohol were dissolved in 20ml of deionized water at 95°C, then 3g of acrylic acid was added to the reaction mixture, nitrogen gas was passed through the mixture for 10min to deoxidize, and 0.01g of ammonium persulfate was added , 0.03g of N,N-methylenebisacrylamide, 0.26g of iron salt and 0.14g of zinc salt, inject the resulting solution into a cylindrical mold (5mm in diameter, 5cm in length), and keep the reaction mixture After constant temperature at 60°C for 6h, the resulting mixture was cooled to 2°C, and after constant temperature for 1h, the mixture was frozen at -15°C, constant temperature for 2h, removed and thawed at room temperature for 5h, and the freezing / thawing process was repeated twice. The mixture is then removed from the mold to obtain a hydrogel.

Embodiment 2

[0015] Firstly, 0.4g of agar and 1.1g of polyvinyl alcohol were dissolved in 21ml of deionized water at 95°C, then 3g of acrylic acid was added to the reaction mixture, nitrogen gas was passed through the mixture for 10min to deoxidize, and 0.02g of potassium persulfate was added , 0.01g of N,N-methylenebisacrylamide, 0.20g of iron salt and 0.20g of aluminum salt, inject the resulting solution into a cylindrical mold (5mm in diameter, 5cm in length), and keep the reaction mixture After keeping the temperature at 65°C for 8h, cool the resulting mixture to 3°C, keep the temperature at 5h, freeze the mixture at -16°C, keep the temperature at 3h, take out the mixture and thaw at room temperature for 6h, repeat the freezing / thawing process twice, and then take it out from the mold mixture to obtain a hydrogel.

Embodiment 3

[0017] First, 0.5g of agar and 1.2g of polyvinyl alcohol were dissolved in 22ml of deionized water at 95°C, then 4g of acrylic acid was added to the reaction mixture, nitrogen gas was passed through the mixture for 10min to deoxidize, and 0.03g of ammonium persulfate was added , 0.03g of N,N-methylenebisacrylamide, 0.12g of aluminum salt and 0.28g of calcium salt, inject the resulting solution into a cylindrical mold (5mm in diameter, 5cm in length), and keep the reaction mixture After keeping the temperature at 70°C for 8 hours, cool the resulting mixture to 4°C, hold the temperature for 3 hours, freeze the mixture at -17°C, hold the temperature for 3 hours, take out the mixture and thaw it at room temperature for 7 hours, repeat the freezing / thawing process 3 times, and then take it out from the mold mixture to obtain a hydrogel.

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Abstract

Disclosed is dual-ion collaboration crosslinking rapid self-healing type bacteriostasis hydrogel. The hydrogel is generated by chemical and physical crosslinking of polyvinyl alcohol and agar, the internal structure is a three-dimensional network structure, and metal ion of the network structure are combinations of two of Fe3+, Al3+, Zn2+, Ca2+ and Cu2+; a preparation method of the bacteriostasishydrogel comprises the steps that agar and polyvinyl alcohol are dissolved into deionized water under the temperature of 95 DEG C, and then, acrylic acid is added into the mixture; nitrogen is introduced into the mixture for deoxygenation for 10 min, persulfate, N,N-methylene bisacrylamide and inorganic metal salt are added, the obtained solution is injected into a cylindrical model and kept at the temperature of 60-90 DEG C, the temperature is kept constant for 6-10 h, cooling is performed to reach the temperature of 2-5 DEG C, the temperature is kept constant for 1-5 h, the mixture is frozenat the temperature of subzero 20-subzero 15 DEG C, the temperature is kept constant for 2-5 h, the mixture is taken out to be unfrozen under the room temperature for 5-10 h, the freezing / defreezing processes are repeatedly executed 2-4 times, then, the mixture is taken out from the mold, and the hydrogel is obtained. The hydrogel has the high mechanical performance, rapid self-healing performanceand antibacterial performance.

Description

technical field [0001] The invention belongs to the field of material technology, in particular to a preparation method of a hydrogel material. Background technique [0002] In recent years, hydrogels have attracted much attention in superabsorbents, sensors, tissue engineering scaffolds, and drug carriers due to their good softness, sensitivity, biocompatibility, and permeability. However, most traditional hydrogels have a single network structure and uneven internal structure, which makes their mechanical strength, tensile properties and toughness poor, which severely limits the application of hydrogels in markets that require high mechanical strength. With the improvement of the performance requirements of hydrogels, hydrogels with new toughening mechanisms and mechanical strength of microstructures began to be produced, such as double network hydrogels, nanocomposite hydrogels, polyampholyte hydrogels, Hydrophobically modified hydrogels, etc. Among them, the double net...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L29/04C08L5/12C08J3/075C08F291/08C08F220/06C08F222/38
CPCC08F251/00C08F261/04C08J3/075C08J2329/04C08J2405/12C08F220/06C08F222/385
Inventor 李秋荣王淑雪迟宏进冯双将吕元飞
Owner YANSHAN UNIV
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