CN111888516B - Antibacterial medical coated non-woven fabric and preparation method thereof - Google Patents
Antibacterial medical coated non-woven fabric and preparation method thereof Download PDFInfo
- Publication number
- CN111888516B CN111888516B CN202010802916.4A CN202010802916A CN111888516B CN 111888516 B CN111888516 B CN 111888516B CN 202010802916 A CN202010802916 A CN 202010802916A CN 111888516 B CN111888516 B CN 111888516B
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- woven fabric
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- preparing
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- 239000004745 nonwoven fabric Substances 0.000 title claims abstract description 242
- 230000000844 anti-bacterial effect Effects 0.000 title claims abstract description 100
- 238000002360 preparation method Methods 0.000 title claims abstract description 9
- 239000011248 coating agent Substances 0.000 claims abstract description 239
- 238000000576 coating method Methods 0.000 claims abstract description 239
- 239000000758 substrate Substances 0.000 claims abstract description 88
- OKTJSMMVPCPJKN-UHFFFAOYSA-N Carbon Chemical compound [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 claims abstract description 61
- XLOMVQKBTHCTTD-UHFFFAOYSA-N Zinc monoxide Chemical compound [Zn]=O XLOMVQKBTHCTTD-UHFFFAOYSA-N 0.000 claims abstract description 44
- 239000003094 microcapsule Substances 0.000 claims abstract description 43
- 229920002472 Starch Polymers 0.000 claims abstract description 31
- 239000008107 starch Substances 0.000 claims abstract description 31
- 235000019698 starch Nutrition 0.000 claims abstract description 31
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 31
- SOQBVABWOPYFQZ-UHFFFAOYSA-N oxygen(2-);titanium(4+) Chemical compound [O-2].[O-2].[Ti+4] SOQBVABWOPYFQZ-UHFFFAOYSA-N 0.000 claims abstract description 22
- 238000009987 spinning Methods 0.000 claims abstract description 22
- 239000011787 zinc oxide Substances 0.000 claims abstract description 22
- 238000002156 mixing Methods 0.000 claims abstract description 20
- NWADXBLMWHFGGU-UHFFFAOYSA-N dodecanoic anhydride Chemical compound CCCCCCCCCCCC(=O)OC(=O)CCCCCCCCCCC NWADXBLMWHFGGU-UHFFFAOYSA-N 0.000 claims abstract description 18
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- 229910021389 graphene Inorganic materials 0.000 claims abstract description 16
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- HEMHJVSKTPXQMS-UHFFFAOYSA-M Sodium hydroxide Chemical compound [OH-].[Na+] HEMHJVSKTPXQMS-UHFFFAOYSA-M 0.000 claims description 99
- LFQSCWFLJHTTHZ-UHFFFAOYSA-N Ethanol Chemical compound CCO LFQSCWFLJHTTHZ-UHFFFAOYSA-N 0.000 claims description 89
- QTBSBXVTEAMEQO-UHFFFAOYSA-N Acetic acid Chemical compound CC(O)=O QTBSBXVTEAMEQO-UHFFFAOYSA-N 0.000 claims description 55
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- ZMXDDKWLCZADIW-UHFFFAOYSA-N N,N-Dimethylformamide Chemical compound CN(C)C=O ZMXDDKWLCZADIW-UHFFFAOYSA-N 0.000 claims description 30
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- YMWUJEATGCHHMB-UHFFFAOYSA-N Dichloromethane Chemical compound ClCCl YMWUJEATGCHHMB-UHFFFAOYSA-N 0.000 claims description 27
- SQGYOTSLMSWVJD-UHFFFAOYSA-N silver(1+) nitrate Chemical compound [Ag+].[O-]N(=O)=O SQGYOTSLMSWVJD-UHFFFAOYSA-N 0.000 claims description 26
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- 229910021641 deionized water Inorganic materials 0.000 claims description 25
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- SMZOUWXMTYCWNB-UHFFFAOYSA-N 2-(2-methoxy-5-methylphenyl)ethanamine Chemical compound COC1=CC=C(C)C=C1CCN SMZOUWXMTYCWNB-UHFFFAOYSA-N 0.000 claims description 16
- NIXOWILDQLNWCW-UHFFFAOYSA-N 2-Propenoic acid Natural products OC(=O)C=C NIXOWILDQLNWCW-UHFFFAOYSA-N 0.000 claims description 16
- RWCCWEUUXYIKHB-UHFFFAOYSA-N benzophenone Chemical compound C=1C=CC=CC=1C(=O)C1=CC=CC=C1 RWCCWEUUXYIKHB-UHFFFAOYSA-N 0.000 claims description 16
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- UGTZMIPZNRIWHX-UHFFFAOYSA-K sodium trimetaphosphate Chemical compound [Na+].[Na+].[Na+].[O-]P1(=O)OP([O-])(=O)OP([O-])(=O)O1 UGTZMIPZNRIWHX-UHFFFAOYSA-K 0.000 claims description 14
- ZOIORXHNWRGPMV-UHFFFAOYSA-N acetic acid;zinc Chemical compound [Zn].CC(O)=O.CC(O)=O ZOIORXHNWRGPMV-UHFFFAOYSA-N 0.000 claims description 13
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- DBMJMQXJHONAFJ-UHFFFAOYSA-M Sodium laurylsulphate Chemical compound [Na+].CCCCCCCCCCCCOS([O-])(=O)=O DBMJMQXJHONAFJ-UHFFFAOYSA-M 0.000 claims description 12
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- 125000003178 carboxy group Chemical group [H]OC(*)=O 0.000 description 1
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- QTCANKDTWWSCMR-UHFFFAOYSA-N costic aldehyde Natural products C1CCC(=C)C2CC(C(=C)C=O)CCC21C QTCANKDTWWSCMR-UHFFFAOYSA-N 0.000 description 1
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- ISTFUJWTQAMRGA-UHFFFAOYSA-N iso-beta-costal Natural products C1C(C(=C)C=O)CCC2(C)CCCC(C)=C21 ISTFUJWTQAMRGA-UHFFFAOYSA-N 0.000 description 1
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- 230000001954 sterilising effect Effects 0.000 description 1
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Classifications
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- D06M10/00—Physical treatment of fibres, threads, yarns, fabrics, or fibrous goods made from such materials, e.g. ultrasonic, corona discharge, irradiation, electric currents, or magnetic fields; Physical treatment combined with treatment with chemical compounds or elements
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Abstract
The invention discloses an antibacterial medical coating non-woven fabric and a preparation method thereof, which comprises the following steps of firstly, modifying nano zinc oxide whiskers and nano titanium dioxide whiskers by using a silane coupling agent, mixing the modified whiskers into a spinning stock solution, spinning, and preparing a non-woven fabric substrate; loading sustainable-release Ag on graphene oxide+Obtaining modified graphene oxide, adding the modified graphene oxide and lauric anhydride into the coating A, and coating the modified graphene oxide and the lauric anhydride on the lower surface of the non-woven fabric substrate; mixing the antibacterial microcapsule and the porous starch, adding the mixture into the coating B, coating the mixture on the upper surface of the non-woven fabric substrate, and irradiating the mixture by an ultraviolet lamp to obtain an antibacterial coated non-woven fabric; the antibacterial medical coated non-woven fabric prepared by the invention has excellent antibacterial performance, strongest hemostatic effect, high tensile breaking strength and water solubility and has very wide application prospect through the synergistic effect of the coating A, the coating B and the non-woven fabric substrate.
Description
Technical Field
The invention relates to the technical field of non-woven fabrics, in particular to an antibacterial medical coated non-woven fabric and a preparation method thereof.
Background
As a medical instrument commonly used, the non-woven fabrics is widely applied to the conditions such as disposable gauze mask, the experimental clothes, wound are wrapped, the non-woven fabrics that are used for wound to wrap on the market at present only reduce blood loss through oppression blood vessel, stanch, and the principal ingredients of blood is protein, the non-woven fabrics is after absorbing blood, thereby the further infection of wound is aroused to the untimely change just very easily causes breeding of bacterium, but frequently change the non-woven fabrics and can cause the waste of medicine dressing, and the change process is also very troublesome, especially do not have professional help to change the non-woven fabrics on one's side, just lead to the wound to wrap incompletely very easily, increase wound infection and torn risk.
Secondly, after the non-woven fabric absorbs blood, the blood adheres the wound and the non-woven fabric together, the wound is very easy to tear when the non-woven fabric is replaced, secondary tearing of the wound is caused, and the wound healing process is slowed down; the tensile strength of traditional non-woven fabrics is also than poor, makes some strength just easy fracture slightly, consequently people need a medical coating non-woven fabrics that has powerful antibiotic effect, tensile strength height be difficult for the fracture, can promote wound healing, can not cause the tearing to the wound when tearing open and trade the non-woven fabrics urgently.
Disclosure of Invention
The invention aims to provide an antibacterial medical coated non-woven fabric and a preparation method thereof, and aims to solve the problems in the prior art.
In order to achieve the purpose, the invention provides the following technical scheme:
an antibacterial medical coated non-woven fabric comprises the following raw material components: 90-100 parts of non-woven fabric substrate, 15-25 parts of coating A and 15-25 parts of coating B.
According to the medical non-woven fabric wound healing promoting coating, the coating A is coated on the lower surface of the non-woven fabric substrate, the coating B is coated on the upper surface of the non-woven fabric substrate, the coating A, the coating B and the non-woven fabric substrate all contain antibacterial and antibacterial substances, the lower surface of the medical non-woven fabric is required to be attached to a wound when the medical non-woven fabric wound healing promoting coating is used, the coating B can effectively inhibit external bacteria from invading and prevent infection, the coating A can effectively inhibit bacteria in the wound and accelerate wound healing, and the synergistic effect of the coating A, the coating B and the non-woven fabric substrate is utilized to effectively inhibit bacteria.
Preferably, the non-woven fabric substrate comprises the following raw material components: 20-30 parts of modified crystal whisker, 70-90 parts of spinning solution, 8-12 parts of chloroacetic acid, 8-12 parts of acrylic acid and 8-12 parts of benzophenone in parts by weight; the spinning solution is one or more of polyurethane, polypropylene and polyglycolic acid.
According to the medical non-woven fabric and the preparation method thereof, the modified whiskers are added into the spinning solution, so that the tensile strength of the medical non-woven fabric can be effectively increased, and the problem that the traditional medical non-woven fabric is insufficient in tensile strength and easy to break is solved; the crystal whiskers added in the invention are nano zinc oxide crystal whiskers and nano titanium dioxide crystal whiskers, and have certain photocatalysis capacity and bacteriostasis effect; after the non-woven fabric A is prepared, the non-woven fabric A is immersed in sodium hydroxide for alkalization treatment and is immersed in chloroacetic acid, acrylic acid and benzophenone for treatment, the prepared non-woven fabric substrate has a hemostatic effect and a soluble characteristic, the non-woven fabric substrate can be directly dissolved by water, and the situation that a wound is torn secondarily due to the fact that blood is solidified on the non-woven fabric when the non-woven fabric is replaced is reduced; acrylic acid and benzophenone are used as catalysts to promote the increase of carboxyl groups on the non-woven fabric substrate, and when the coating A is coated in the later period, the epoxy groups on the surface of the modified graphene oxide in the coating A are promoted to be subjected to ring opening, so that the modified graphene oxide can be grafted on the surface of the non-woven fabric substrate and is not easy to fall off.
The invention utilizes silane coupling agent to modify the nano zinc oxide crystal whisker and the nano titanium dioxide crystal whisker, the hydrogen bond acting force between the nano zinc oxide crystal whisker and the nano titanium dioxide crystal whisker is weakened, and the nano zinc oxide crystal whisker and the nano titanium dioxide crystal whisker are uniformly dispersed in the spinning solution without agglomeration due to the electrostatic interaction principle; meanwhile, due to the existence of the nano zinc oxide whiskers and the nano titanium dioxide whiskers, the prepared modified yarn has a rough surface, and is more favorable for forming physical lock catches when the coating A and the coating B are coated at the later stage, so that the adhesive force of the coating A and the coating B on a non-woven fabric substrate is increased.
Preferably, the modified whisker comprises the following raw material components: 20-30 parts of nano zinc oxide whisker, 20-30 parts of nano titanium dioxide whisker and 10-16 parts of silane coupling agent.
Preferably, the coating A comprises the following raw material components: the coating comprises, by weight, 20-30 parts of modified graphene oxide, 12-14 parts of lauric anhydride, 10-20 parts of glacial acetic acid and 30-60 parts of a coating base material.
Preferably, the modified graphene oxide comprises the following raw material components: 50-60 parts of graphene oxide, 8-10 parts of zinc acetate, 10-20 parts of sodium hydroxide and 15-25 parts of silver nitrate.
Preferably, the coating B comprises the following raw material components: the coating comprises, by weight, 20-30 parts of antibacterial microcapsules, 30-40 parts of porous starch, 10-20 parts of anhydrous sodium carbonate, 10-16 parts of sodium trimetaphosphate and 40-60 parts of a coating base material.
Preferably, the antibacterial microcapsule comprises the following raw material components: 20-40 parts of ethyl cellulose, 20-30 parts of plant extract, 10-18 parts of emulsifier, 30-50 parts of gelatin and 16-18 parts of sodium dodecyl sulfate; the plant extract is one or more of a purple daisy extract, a ginger extract and a grape seed extract; the emulsifier is span 80.
The coating B is coated on the upper surface of the non-woven fabric substrate, antibacterial microcapsules and porous starch are specially added into the coating B, and the porous starch is used for absorbing blood flowing out of a wound, promoting the aggregation of platelets and white blood cells in the blood at the wound and accelerating the wound hemostasis process; meanwhile, the antibacterial microcapsules can resist the invasion of exogenous bacteria to wounds by releasing antibacterial substances on one hand, and can cover pungent odor brought by the medicines by using plant extract on the other hand, so that people feel happy.
Preferably, the coating base material comprises the following raw material components: 40-60 parts of chitosan, 15-25 parts of adhesive and 10-14 parts of agar; the adhesive is VAE emulsion; the porous starch is one or more of cassava porous starch, corn porous starch and wheat porous starch.
A preparation method of antibacterial medical coated non-woven fabric comprises the following steps:
(1) preparing a non-woven fabric substrate;
A. preparing modified crystal whiskers;
B. preparing non-woven fabric;
C. preparing a non-woven fabric substrate;
(2) preparing a coating A;
A. preparing modified graphene oxide;
B. synthesizing a coating A;
C. coating the lower surface;
(3) preparing a coating B;
A. preparing an antibacterial microcapsule;
B. synthesizing a coating B;
C. coating the upper surface to obtain the antibacterial non-woven fabric.
The method specifically comprises the following steps:
(1) preparing a non-woven fabric substrate:
A. preparing modified crystal whiskers: adding the nano zinc oxide whiskers and the nano titanium dioxide whiskers into an ethanol solution, uniformly mixing, adding a silane coupling agent, adjusting the pH value to 4-6, and continuously stirring for reaction for 30-60min to obtain modified whiskers;
B. preparing a non-woven fabric: adding N, N-dimethylformamide into the spinning solution, uniformly stirring, increasing the rotating speed to 1100-1300r/min, adding modified crystal whiskers, carrying out electrostatic spinning to obtain modified yarns, and preparing the modified yarns into non-woven fabrics A;
C. preparing a non-woven fabric substrate:
a) soaking the non-woven fabric A in ethanol for 15-25min, adding a sodium hydroxide solution at the temperature of 20-28 ℃, continuously stirring for reaction for 10-20min, taking out and airing to obtain a non-woven fabric B;
b) placing sodium hydroxide in chloroacetic acid solution, stirring for dissolving, sequentially adding acrylic acid and benzophenone, stirring uniformly, adjusting the pH value to 6-8, placing the non-woven fabric A in the solution for soaking for 1-2h, taking out, washing with ethanol, and placing the solution under an ultraviolet lamp for curing for 3-6h to obtain a non-woven fabric substrate;
(2) preparing a coating A;
A. preparing modified graphene oxide: placing graphene oxide in an ethanol solution for ultrasonic dispersion for 25-35min, sequentially adding zinc acetate and sodium hydroxide solutions, stirring and reacting for 1-2h, raising the temperature to 145-165 ℃, adding silver nitrate, continuously stirring, reacting for 20-24h at a constant temperature, washing and drying with deionized water, placing in a urea solution at 90-110 ℃, stirring and reacting for 20-40min, and washing and drying with deionized water again to obtain modified graphene oxide;
B. synthesis of coating A: adding chitosan into an acetic acid solution at room temperature, stirring and dissolving, raising the temperature to 50-60 ℃, adding lauric anhydride and an ethanol solution, continuing stirring, reacting at a constant temperature for 10-15h, sequentially adding glacial acetic acid, a coating base material and modified graphene oxide, and stirring to obtain a coating A;
C. coating the lower surface: coating the coating A on the lower surface of the non-woven fabric substrate, reacting for 8-10h, and curing for 3-6h under an ultraviolet lamp at the temperature of 120-;
(3) preparing a coating B:
A. preparing an antibacterial microcapsule: dissolving ethyl cellulose in dichloromethane under stirring, adding plant extract and emulsifier, stirring at 1300r/min of 1100-;
B. synthesis of coating B: uniformly mixing chitosan, porous starch and deionized water at 50-60 ℃, sequentially adding anhydrous sodium carbonate and sodium trimetaphosphate, stirring for reacting for 1-2h, adjusting the pH to 5-7, sequentially adding an adhesive, an antibacterial microcapsule and agar, and stirring to obtain a coating B;
C. coating the upper surface: and coating the coating B on the upper surface of the non-woven fabric substrate, and curing for 3-6 hours under an ultraviolet lamp at the temperature of 120-150 ℃ to obtain the antibacterial non-woven fabric.
Compared with the prior art, the invention has the beneficial effects that:
the coating B can effectively inhibit the invasion of external bacteria and prevent infection, the coating A can effectively inhibit the breeding of bacteria in a wound and accelerate the healing of the wound, and the synergistic effect of the coating A, the coating B and a non-woven fabric substrate can effectively inhibit bacteria, accelerate the healing of the wound and reduce the infection risk.
The non-woven fabric substrate has the characteristic of solubility, can be directly dissolved by water, and reduces the condition that the wound is secondarily torn because blood is coagulated on the non-woven fabric when the non-woven fabric is replaced.
The coating A is coated on the lower surface of a non-woven fabric substrate, and Ag loaded on the modified graphene oxide in the coating A+Ions can be released for a long time, the aim of effectively inhibiting bacteria for a long time can be achieved, and the chitosan in the coating A has certain hydrophobicity, so that excessive adsorption of the porous starch in the coating B to blood is avoided.
The coating B is coated on the upper surface of the non-woven fabric substrate, and the porous starch in the coating B is favorable for adsorbing blood and accelerating the hemostasis process.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Example 1
(1) Preparing a non-woven fabric substrate:
A. preparing modified crystal whiskers: adding the nano zinc oxide whiskers and the nano titanium dioxide whiskers into an ethanol solution, uniformly mixing, adding a silane coupling agent, adjusting the pH value to 4, and continuously stirring for reaction for 30min to obtain modified whiskers;
B. preparing a non-woven fabric: adding N, N-dimethylformamide into the spinning solution, uniformly stirring, increasing the rotating speed to 1100r/min, adding modified crystal whiskers, carrying out electrostatic spinning to obtain modified yarns, and preparing the modified yarns into non-woven fabrics A;
C. preparing a non-woven fabric substrate:
a) soaking the non-woven fabric A in ethanol for 15min, adding a sodium hydroxide solution at the temperature of 20 ℃, continuously stirring for reaction for 10min, taking out and airing to obtain a non-woven fabric B;
b) placing sodium hydroxide in chloroacetic acid solution, stirring for dissolving, sequentially adding acrylic acid and benzophenone, stirring uniformly, adjusting the pH value to 6, placing the non-woven fabric A in the solution for soaking for 1h, taking out the non-woven fabric A, washing the non-woven fabric A with ethanol, and placing the non-woven fabric A under an ultraviolet lamp for curing for 3h to obtain a non-woven fabric substrate;
(2) preparing a coating A;
A. preparing modified graphene oxide: placing graphene oxide in an ethanol solution, performing ultrasonic dispersion for 25min, sequentially adding zinc acetate and sodium hydroxide solutions, stirring and reacting for 1h, raising the temperature to 145 ℃, adding silver nitrate, continuing stirring, reacting for 20h at a constant temperature, washing and drying with deionized water, placing in a urea solution at 90 ℃, stirring and reacting for 20min, washing and drying with deionized water again to obtain modified graphene oxide;
B. synthesis of coating A: under the condition of room temperature, adding chitosan into an acetic acid solution, stirring and dissolving, raising the temperature to 50 ℃, adding lauric anhydride and an ethanol solution, continuing stirring, reacting at constant temperature for 10 hours, sequentially adding glacial acetic acid, a coating base material and modified graphene oxide, and stirring to obtain a coating A;
C. coating the lower surface: coating the coating A on the lower surface of the non-woven fabric substrate, reacting for 8 hours, and curing for 3 hours under an ultraviolet lamp at 120 ℃;
(3) preparing a coating B:
A. preparing an antibacterial microcapsule: dissolving ethyl cellulose in dichloromethane under stirring, adding plant extractive solution and emulsifier, stirring at 1100r/min for 30min, adding melted gelatin and sodium laurylsulfate, and stirring at 200r/min at low speed to obtain antibacterial microcapsule;
B. synthesis of coating B: uniformly mixing chitosan, porous starch and deionized water at 50 ℃, sequentially adding anhydrous sodium carbonate and sodium trimetaphosphate, stirring for reacting for 1h, adjusting the pH to 5, sequentially adding an adhesive, an antibacterial microcapsule and agar, and stirring to obtain a coating B;
C. coating the upper surface: and (3) coating the coating B on the upper surface of the non-woven fabric substrate, and curing for 3 hours under an ultraviolet lamp at the temperature of 120 ℃ to obtain the antibacterial non-woven fabric.
An antibacterial medical coating non-woven fabric comprises the following raw material components: 90 parts of non-woven fabric substrate, 15 parts of coating A and 15 parts of coating B.
The non-woven fabric substrate comprises the following raw material components: 20 parts of modified crystal whisker, 70 parts of spinning solution, 8 parts of chloroacetic acid, 8 parts of acrylic acid and 8 parts of benzophenone in parts by weight;
the modified crystal whisker comprises the following raw material components: the coating comprises, by weight, 20 parts of nano zinc oxide whiskers, 20 parts of nano titanium dioxide whiskers and 10 parts of a silane coupling agent.
The coating A comprises the following raw material components: the coating comprises, by weight, 20 parts of modified graphene oxide, 12 parts of lauric anhydride, 10 parts of glacial acetic acid and 30 parts of a coating base material.
The modified graphene oxide comprises the following raw material components: the coating comprises, by weight, 50 parts of graphene oxide, 8 parts of zinc acetate, 10 parts of sodium hydroxide and 15 parts of silver nitrate.
The coating B comprises the following raw material components: the coating comprises, by weight, 20 parts of antibacterial microcapsules, 30 parts of porous starch, 10 parts of anhydrous sodium carbonate, 10 parts of sodium trimetaphosphate and 40 parts of a coating base material.
The antibacterial microcapsule comprises the following raw material components: 20 parts of ethyl cellulose, 20 parts of plant extract, 10-parts of emulsifier, 30 parts of gelatin and 16 parts of sodium dodecyl sulfate;
the coating base material comprises the following raw material components: the adhesive comprises, by weight, 40 parts of chitosan, 15 parts of an adhesive and 10 parts of agar.
Example 2
(1) Preparing a non-woven fabric substrate:
A. preparing modified crystal whiskers: adding the nano zinc oxide whiskers and the nano titanium dioxide whiskers into an ethanol solution, uniformly mixing, adding a silane coupling agent, adjusting the pH value to 5, and continuously stirring for reaction for 40min to obtain modified whiskers;
B. preparing a non-woven fabric: adding N, N-dimethylformamide into the spinning solution, uniformly stirring, increasing the rotating speed to 1200r/min, adding modified crystal whiskers, carrying out electrostatic spinning to obtain modified yarns, and preparing the modified yarns into non-woven fabrics A;
C. preparing a non-woven fabric substrate:
a) soaking the non-woven fabric A in ethanol for 20min, adding a sodium hydroxide solution at 24 ℃, continuously stirring for reacting for 15min, taking out and airing to obtain a non-woven fabric B;
b) placing sodium hydroxide in chloroacetic acid solution, stirring for dissolving, sequentially adding acrylic acid and benzophenone, stirring uniformly, adjusting the pH value to 7, placing the non-woven fabric A in the solution for soaking for 1.5h, taking out the non-woven fabric A, washing with ethanol, and placing the non-woven fabric A under an ultraviolet lamp for fixing for 4.5h to obtain a non-woven fabric substrate;
(2) preparing a coating A;
A. preparing modified graphene oxide: placing graphene oxide in an ethanol solution, performing ultrasonic dispersion for 30min, sequentially adding zinc acetate and sodium hydroxide solutions, stirring and reacting for 1.5h, raising the temperature to 155 ℃, adding silver nitrate, continuously stirring, reacting for 22h at a constant temperature, washing and drying with deionized water, placing in a urea solution at 100 ℃, stirring and reacting for 30min, washing and drying with deionized water again to obtain modified graphene oxide;
B. synthesis of coating A: adding chitosan into an acetic acid solution at room temperature, stirring and dissolving, raising the temperature to 55 ℃, adding lauric anhydride and an ethanol solution, continuing stirring, reacting at a constant temperature for 13 hours, sequentially adding glacial acetic acid, a coating base material and modified graphene oxide, and stirring to obtain a coating A;
C. coating the lower surface: coating the coating A on the lower surface of the non-woven fabric substrate, reacting for 9h, and curing for 4.5h under an ultraviolet lamp at 135 ℃;
(3) preparing a coating B:
A. preparing an antibacterial microcapsule: dissolving ethyl cellulose in dichloromethane under stirring, adding plant extractive solution and emulsifier, stirring at 1200r/min for 35min, adding melted gelatin and sodium dodecyl sulfate, and stirring at 300r/min at low speed to obtain antibacterial microcapsule;
B. synthesis of coating B: uniformly mixing chitosan, porous starch and deionized water at 55 ℃, sequentially adding anhydrous sodium carbonate and sodium trimetaphosphate, stirring for reacting for 1.5h, adjusting the pH to 6, sequentially adding an adhesive, an antibacterial microcapsule and agar, and stirring to obtain a coating B;
C. coating the upper surface: and (3) coating the coating B on the upper surface of the non-woven fabric substrate, and curing for 4.5 hours under an ultraviolet lamp at 135 ℃ to obtain the antibacterial non-woven fabric.
An antibacterial medical coating non-woven fabric comprises the following raw material components: 95 parts of non-woven fabric substrate, 20 parts of coating A and 20 parts of coating B in parts by weight.
The non-woven fabric substrate comprises the following raw material components: 25 parts of modified crystal whisker, 80 parts of spinning solution, 10 parts of chloroacetic acid, 10 parts of acrylic acid and 10 parts of benzophenone in parts by weight.
The modified crystal whisker comprises the following raw material components: 25 parts of nano zinc oxide whisker, 25 parts of nano titanium dioxide whisker and 13 parts of silane coupling agent by weight.
The coating A comprises the following raw material components: the coating comprises, by weight, 25 parts of modified graphene oxide, 13 parts of lauric anhydride, 15 parts of glacial acetic acid and 45 parts of a coating base material.
The modified graphene oxide comprises the following raw material components: 55 parts of graphene oxide, 9 parts of zinc acetate, 15 parts of sodium hydroxide and 20 parts of silver nitrate.
The coating B comprises the following raw material components: the coating comprises, by weight, 25 parts of antibacterial microcapsules, 35 parts of porous starch, 15 parts of anhydrous sodium carbonate, 13 parts of sodium trimetaphosphate and 50 parts of a coating base material.
The antibacterial microcapsule comprises the following raw material components: 30 parts of ethyl cellulose, 25 parts of plant extract, 15 parts of emulsifier, 40 parts of gelatin and 17 parts of sodium dodecyl sulfate;
the coating base material comprises the following raw material components: the adhesive comprises, by weight, 50 parts of chitosan, 20 parts of an adhesive and 12 parts of agar.
Example 3
(1) Preparing a non-woven fabric substrate:
A. preparing modified crystal whiskers: adding the nano zinc oxide whiskers and the nano titanium dioxide whiskers into an ethanol solution, uniformly mixing, adding a silane coupling agent, adjusting the pH value to 6, and continuously stirring and reacting for 60min to obtain modified whiskers;
B. preparing a non-woven fabric: adding N, N-dimethylformamide into the spinning solution, uniformly stirring, increasing the rotating speed to 1300r/min, adding modified crystal whiskers, carrying out electrostatic spinning to obtain modified yarns, and preparing the modified yarns into non-woven fabrics A;
C. preparing a non-woven fabric substrate:
a) soaking the non-woven fabric A in ethanol for 25min, adding a sodium hydroxide solution at 28 ℃, continuously stirring for reaction for 20min, taking out and airing to obtain a non-woven fabric B;
b) placing sodium hydroxide in chloroacetic acid solution, stirring for dissolving, sequentially adding acrylic acid and benzophenone, stirring uniformly, adjusting the pH value to 8, placing the non-woven fabric A in the non-woven fabric A for soaking for 2 hours, taking out the non-woven fabric A, washing the non-woven fabric A with ethanol, and placing the non-woven fabric A under an ultraviolet lamp for curing for 6 hours to obtain a non-woven fabric substrate;
(2) preparing a coating A;
A. preparing modified graphene oxide: placing graphene oxide in an ethanol solution, performing ultrasonic dispersion for 35min, sequentially adding zinc acetate and sodium hydroxide solutions, stirring and reacting for 2h, raising the temperature to 165 ℃, adding silver nitrate, continuing stirring, reacting for 24h at a constant temperature, washing and drying with deionized water, placing in a urea solution at 110 ℃, stirring and reacting for 40min, washing and drying with deionized water again to obtain modified graphene oxide;
B. synthesis of coating A: adding chitosan into an acetic acid solution at room temperature, stirring and dissolving, raising the temperature to 60 ℃, adding lauric anhydride and an ethanol solution, continuing stirring, reacting at a constant temperature for 15 hours, sequentially adding glacial acetic acid, a coating base material and modified graphene oxide, and stirring to obtain a coating A;
C. coating the lower surface: coating the coating A on the lower surface of the non-woven fabric substrate, reacting for 10 hours, and curing for 6 hours under an ultraviolet lamp at 150 ℃;
(3) preparing a coating B:
A. preparing an antibacterial microcapsule: dissolving ethyl cellulose in dichloromethane under stirring, adding plant extractive solution and emulsifier, stirring at 1300r/min for 40min, adding melted gelatin and sodium dodecyl sulfate, and stirring at 400r/min for low speed to obtain antibacterial microcapsule;
B. synthesis of coating B: uniformly mixing chitosan, porous starch and deionized water at 60 ℃, sequentially adding anhydrous sodium carbonate and sodium trimetaphosphate, stirring for reacting for 2 hours, adjusting the pH to 7, sequentially adding an adhesive, an antibacterial microcapsule and agar, and stirring to obtain a coating B;
C. coating the upper surface: and (3) coating the coating B on the upper surface of the non-woven fabric substrate, and curing for 6 hours under an ultraviolet lamp at 150 ℃ to obtain the antibacterial non-woven fabric.
An antibacterial medical coating non-woven fabric comprises the following raw material components: the coating comprises, by weight, 100 parts of a non-woven fabric substrate, 25 parts of a coating A and 25 parts of a coating B.
The non-woven fabric substrate comprises the following raw material components: 30 parts of modified crystal whisker, 90 parts of spinning solution, 12 parts of chloroacetic acid, 12 parts of acrylic acid and 12 parts of benzophenone in parts by weight.
The modified crystal whisker comprises the following raw material components: 30 parts of nano zinc oxide whisker, 30 parts of nano titanium dioxide whisker and 16 parts of silane coupling agent by weight.
The coating A comprises the following raw material components: the coating comprises, by weight, 30 parts of modified graphene oxide, 14 parts of lauric anhydride, 120 parts of glacial acetic acid and 60 parts of a coating base material.
The modified graphene oxide comprises the following raw material components: 60 parts of graphene oxide, 10 parts of zinc acetate, 20 parts of sodium hydroxide and 25 parts of silver nitrate.
The coating B comprises the following raw material components: the coating comprises, by weight, 30 parts of antibacterial microcapsules, 40 parts of porous starch, 20 parts of anhydrous sodium carbonate, 16 parts of sodium trimetaphosphate and 60 parts of a coating base material.
The antibacterial microcapsule comprises the following raw material components: 40 parts of ethyl cellulose, 30 parts of plant extract, 18 parts of emulsifier, 50 parts of gelatin and 18 parts of sodium dodecyl sulfate;
the coating base material comprises the following raw material components: 60 parts of chitosan, 25 parts of adhesive and 14 parts of agar.
Example 4
The remaining parameters are referred to in example 1.
(1) Preparing a non-woven fabric substrate:
A. preparing a non-woven fabric: adding N, N-dimethylformamide into the spinning solution, uniformly stirring, increasing the rotating speed to 1100r/min, carrying out electrostatic spinning to obtain modified yarns, and preparing the modified yarns into non-woven fabrics A;
B. preparing a non-woven fabric substrate: soaking the non-woven fabric A in ethanol for 15min, adding a sodium hydroxide solution at the temperature of 20 ℃, continuously stirring for reaction for 10min, taking out and airing to obtain a non-woven fabric substrate;
(2) preparing a coating A;
A. preparing modified graphene oxide: placing graphene oxide in an ethanol solution, performing ultrasonic dispersion for 25min, sequentially adding zinc acetate and sodium hydroxide solutions, stirring and reacting for 1h, raising the temperature to 145 ℃, adding silver nitrate, continuing stirring, reacting for 20h at a constant temperature, washing and drying with deionized water, placing in a urea solution at 90 ℃, stirring and reacting for 20min, washing and drying with deionized water again to obtain modified graphene oxide;
B. synthesis of coating A: under the condition of room temperature, adding chitosan into an acetic acid solution, stirring and dissolving, raising the temperature to 50 ℃, adding lauric anhydride and an ethanol solution, continuing stirring, reacting at constant temperature for 10 hours, sequentially adding glacial acetic acid, a coating base material and modified graphene oxide, and stirring to obtain a coating A;
C. coating the lower surface: coating the coating A on the lower surface of the non-woven fabric substrate, reacting for 8 hours, and curing for 3 hours under an ultraviolet lamp at 120 ℃;
(3) preparing a coating B:
A. preparing an antibacterial microcapsule: dissolving ethyl cellulose in dichloromethane under stirring, adding plant extractive solution and emulsifier, stirring at 1100r/min for 30min, adding melted gelatin and sodium laurylsulfate, and stirring at 200r/min at low speed to obtain antibacterial microcapsule;
B. synthesis of coating B: uniformly mixing chitosan, porous starch and deionized water at 50 ℃, sequentially adding anhydrous sodium carbonate and sodium trimetaphosphate, stirring for reacting for 1h, adjusting the pH to 5, sequentially adding an adhesive, an antibacterial microcapsule and agar, and stirring to obtain a coating B;
C. coating the upper surface: and (3) coating the coating B on the upper surface of the non-woven fabric substrate, and curing for 3 hours under an ultraviolet lamp at the temperature of 120 ℃ to obtain the antibacterial non-woven fabric.
Example 5
The remaining parameters are referred to in example 1.
(1) Preparing a non-woven fabric substrate:
A. preparing modified crystal whiskers: adding the nano zinc oxide whiskers and the nano titanium dioxide whiskers into an ethanol solution, uniformly mixing, adding a silane coupling agent, adjusting the pH value to 4, and continuously stirring for reaction for 30min to obtain modified whiskers;
B. preparing a non-woven fabric: adding N, N-dimethylformamide into the spinning solution, uniformly stirring, increasing the rotating speed to 1100r/min, adding modified crystal whiskers, carrying out electrostatic spinning to obtain modified yarns, and preparing the modified yarns into non-woven fabrics A;
C. preparing a non-woven fabric substrate:
a) soaking the non-woven fabric A in ethanol for 15min, adding a sodium hydroxide solution at the temperature of 20 ℃, continuously stirring for reaction for 10min, taking out and airing to obtain a non-woven fabric B;
b) placing sodium hydroxide in chloroacetic acid solution, stirring for dissolving, sequentially adding acrylic acid and benzophenone, stirring uniformly, adjusting the pH value to 6, placing the non-woven fabric A in the solution for soaking for 1h, taking out the non-woven fabric A, washing the non-woven fabric A with ethanol, and placing the non-woven fabric A under an ultraviolet lamp for curing for 3h to obtain a non-woven fabric substrate;
(2) preparing a coating A;
A. adding chitosan into an acetic acid solution at room temperature, stirring and dissolving, raising the temperature to 50 ℃, adding lauric anhydride and an ethanol solution, continuing stirring, reacting at a constant temperature for 10 hours, sequentially adding glacial acetic acid and a coating base material, and stirring to obtain a coating A;
B. coating the lower surface: coating the coating A on the lower surface of the non-woven fabric substrate, reacting for 8 hours, and curing for 3 hours under an ultraviolet lamp at 120 ℃;
(3) preparing a coating B:
A. preparing an antibacterial microcapsule: dissolving ethyl cellulose in dichloromethane under stirring, adding plant extractive solution and emulsifier, stirring at 1100r/min for 30min, adding melted gelatin and sodium laurylsulfate, and stirring at 200r/min at low speed to obtain antibacterial microcapsule;
B. synthesis of coating B: uniformly mixing chitosan, porous starch and deionized water at 50 ℃, sequentially adding anhydrous sodium carbonate and sodium trimetaphosphate, stirring for reacting for 1h, adjusting the pH to 5, sequentially adding an adhesive, an antibacterial microcapsule and agar, and stirring to obtain a coating B;
C. coating the upper surface: and (3) coating the coating B on the upper surface of the non-woven fabric substrate, and curing for 3 hours under an ultraviolet lamp at the temperature of 120 ℃ to obtain the antibacterial non-woven fabric.
Example 6
The remaining parameters are referred to in example 1.
(1) Preparing a non-woven fabric substrate:
A. preparing modified crystal whiskers: adding the nano zinc oxide whiskers and the nano titanium dioxide whiskers into an ethanol solution, uniformly mixing, adding a silane coupling agent, adjusting the pH value to 4, and continuously stirring for reaction for 30min to obtain modified whiskers;
B. preparing a non-woven fabric: adding N, N-dimethylformamide into the spinning solution, uniformly stirring, increasing the rotating speed to 1100r/min, adding modified crystal whiskers, carrying out electrostatic spinning to obtain modified yarns, and preparing the modified yarns into non-woven fabrics A;
C. preparing a non-woven fabric substrate:
a) soaking the non-woven fabric A in ethanol for 15min, adding a sodium hydroxide solution at the temperature of 20 ℃, continuously stirring for reaction for 10min, taking out and airing to obtain a non-woven fabric B;
b) placing sodium hydroxide in chloroacetic acid solution, stirring for dissolving, sequentially adding acrylic acid and benzophenone, stirring uniformly, adjusting the pH value to 6, placing the non-woven fabric A in the solution for soaking for 1h, taking out the non-woven fabric A, washing the non-woven fabric A with ethanol, and placing the non-woven fabric A under an ultraviolet lamp for curing for 3h to obtain a non-woven fabric substrate;
(2) preparing a coating A;
A. preparing modified graphene oxide: placing graphene oxide in an ethanol solution, performing ultrasonic dispersion for 25min, sequentially adding zinc acetate and sodium hydroxide solutions, stirring and reacting for 1h, raising the temperature to 145 ℃, adding silver nitrate, continuing stirring, reacting for 20h at a constant temperature, washing and drying with deionized water, placing in a urea solution at 90 ℃, stirring and reacting for 20min, washing and drying with deionized water again to obtain modified graphene oxide;
B. synthesis of coating A: under the condition of room temperature, adding chitosan into an acetic acid solution, stirring and dissolving, raising the temperature to 50 ℃, reacting at constant temperature for 10 hours, sequentially adding glacial acetic acid, a coating base material and modified graphene oxide, and stirring to obtain a coating A;
C. coating the lower surface: coating the coating A on the lower surface of the non-woven fabric substrate, reacting for 8 hours, and curing for 3 hours under an ultraviolet lamp at 120 ℃;
(3) preparing a coating B:
A. preparing an antibacterial microcapsule: dissolving ethyl cellulose in dichloromethane under stirring, adding plant extractive solution and emulsifier, stirring at 1100r/min for 30min, adding melted gelatin and sodium laurylsulfate, and stirring at 200r/min at low speed to obtain antibacterial microcapsule;
B. synthesis of coating B: uniformly mixing chitosan, porous starch and deionized water at 50 ℃, sequentially adding anhydrous sodium carbonate and sodium trimetaphosphate, stirring for reacting for 1h, adjusting the pH to 5, sequentially adding an adhesive, an antibacterial microcapsule and agar, and stirring to obtain a coating B;
C. coating the upper surface: and (3) coating the coating B on the upper surface of the non-woven fabric substrate, and curing for 3 hours under an ultraviolet lamp at the temperature of 120 ℃ to obtain the antibacterial non-woven fabric.
Example 7
The remaining parameters are referred to in example 1.
(1) Preparing a non-woven fabric substrate:
A. preparing modified crystal whiskers: adding the nano zinc oxide whiskers and the nano titanium dioxide whiskers into an ethanol solution, uniformly mixing, adding a silane coupling agent, adjusting the pH value to 4, and continuously stirring for reaction for 30min to obtain modified whiskers;
B. preparing a non-woven fabric: adding N, N-dimethylformamide into the spinning solution, uniformly stirring, increasing the rotating speed to 1100r/min, adding modified crystal whiskers, carrying out electrostatic spinning to obtain modified yarns, and preparing the modified yarns into non-woven fabrics A;
C. preparing a non-woven fabric substrate:
a) soaking the non-woven fabric A in ethanol for 15min, adding a sodium hydroxide solution at the temperature of 20 ℃, continuously stirring for reaction for 10min, taking out and airing to obtain a non-woven fabric B;
b) placing sodium hydroxide in chloroacetic acid solution, stirring for dissolving, sequentially adding acrylic acid and benzophenone, stirring uniformly, adjusting the pH value to 6, placing the non-woven fabric A in the solution for soaking for 1h, taking out the non-woven fabric A, washing the non-woven fabric A with ethanol, and placing the non-woven fabric A under an ultraviolet lamp for curing for 3h to obtain a non-woven fabric substrate;
(2) preparing a coating A;
A. preparing modified graphene oxide: placing graphene oxide in an ethanol solution, performing ultrasonic dispersion for 25min, sequentially adding zinc acetate and sodium hydroxide solutions, stirring and reacting for 1h, raising the temperature to 145 ℃, adding silver nitrate, continuing stirring, reacting for 20h at a constant temperature, washing and drying with deionized water, placing in a urea solution at 90 ℃, stirring and reacting for 20min, washing and drying with deionized water again to obtain modified graphene oxide;
B. synthesis of coating A: under the condition of room temperature, adding chitosan into an acetic acid solution, stirring and dissolving, raising the temperature to 50 ℃, adding lauric anhydride and an ethanol solution, continuing stirring, reacting at constant temperature for 10 hours, sequentially adding glacial acetic acid, a coating base material and modified graphene oxide, and stirring to obtain a coating A;
C. coating the lower surface: and coating the coating A on the lower surface of the non-woven fabric substrate, reacting for 8 hours, and curing for 3 hours under an ultraviolet lamp at 120 ℃ to obtain the antibacterial non-woven fabric.
Example 8
The remaining parameters are referred to in example 1.
(1) Preparing a non-woven fabric substrate:
A. preparing modified crystal whiskers: adding the nano zinc oxide whiskers and the nano titanium dioxide whiskers into an ethanol solution, uniformly mixing, adding a silane coupling agent, adjusting the pH value to 4, and continuously stirring for reaction for 30min to obtain modified whiskers;
B. preparing a non-woven fabric: adding N, N-dimethylformamide into the spinning solution, uniformly stirring, increasing the rotating speed to 1100r/min, adding modified crystal whiskers, carrying out electrostatic spinning to obtain modified yarns, and preparing the modified yarns into non-woven fabrics A;
C. preparing a non-woven fabric substrate:
a) soaking the non-woven fabric A in ethanol for 15min, adding a sodium hydroxide solution at the temperature of 20 ℃, continuously stirring for reaction for 10min, taking out and airing to obtain a non-woven fabric B;
b) and (2) placing sodium hydroxide in chloroacetic acid solution, stirring and dissolving, then sequentially adding acrylic acid and benzophenone, stirring uniformly, adjusting the pH value to 6, then placing the non-woven fabric A in the solution for soaking for 1h, taking out the non-woven fabric A, washing the non-woven fabric A with ethanol, and placing the non-woven fabric A under an ultraviolet lamp for curing for 3h to obtain the non-woven fabric substrate.
(2) Preparing a coating B:
A. preparing an antibacterial microcapsule: dissolving ethyl cellulose in dichloromethane under stirring, adding plant extractive solution and emulsifier, stirring at 1100r/min for 30min, adding melted gelatin and sodium laurylsulfate, and stirring at 200r/min at low speed to obtain antibacterial microcapsule;
B. synthesis of coating B: uniformly mixing chitosan, porous starch and deionized water at 50 ℃, sequentially adding anhydrous sodium carbonate and sodium trimetaphosphate, stirring for reacting for 1h, adjusting the pH to 5, sequentially adding an adhesive, an antibacterial microcapsule and agar, and stirring to obtain a coating B;
C. coating the upper surface: and (3) coating the coating B on the upper surface of the non-woven fabric substrate, and curing for 3 hours under an ultraviolet lamp at the temperature of 120 ℃ to obtain the antibacterial non-woven fabric.
Examples 4 to 8 are comparative experiments, in which example 4 was a comparative experiment in which modified graphene oxide was added to the coating a, and antibacterial microcapsules and porous starch were added to the coating B, and the coating a and the coating B were directly coated on a common nonwoven fabric to obtain an antibacterial coated nonwoven fabric; in the embodiment 5, the coating A is not added with the modified graphene oxide, and the rest parameters are not changed, and the coating A and the coating B are coated on a non-woven fabric substrate; in the embodiment 6, the chitosan in the coating A is not modified by adding the lauric anhydride, and the rest parameters are not changed, and the coating A and the coating B are coated on the non-woven fabric substrate; the non-woven fabric substrate in example 7 was coated with only coating a, with all other parameters unchanged; in example 8, the non-woven fabric substrate was coated with only coating B, and the remaining parameters were unchanged; the nonwoven fabric samples prepared in examples 1-8 were subjected to the following experiments:
and (3) testing antibacterial performance: according to GB/20944,. 3-2008 evaluation of antibacterial properties of textiles section 3: the test was carried out by the oscillatory method.
Testing the dissolution performance of the non-woven fabric: placing a non-woven fabric sample in distilled water, shaking to fully wet the non-woven fabric sample, standing and observing the time required for the non-woven fabric to be completely dissolved into a uniform solution, wherein if the non-woven fabric is completely dissolved into a uniform and transparent solution after standing and reacting for one week, the non-woven fabric is soluble, and if the non-woven fabric is still in a complete state after one week, the non-woven fabric is considered to be insoluble.
And (3) testing the hemostatic effect: the method comprises the following steps of conducting unhairing treatment on the abdomens of a plurality of mouse samples, conducting anesthesia, fixing the mouse samples on a mouse plate for experiment in a supine position, fixing the four limbs and the head of the mouse, conducting disinfection treatment on the abdomens of the mouse by using alcohol, making a longitudinal incision with the length of about 2cm along the abdominal midline under the costal arch, cutting off abdominal muscles along the abdominal midline, extruding the abdomens until the liver lobes are extruded out of the incision, sucking dry abdominal cavity liquid around the liver, immediately covering the liver lobe surfaces with non-woven fabric samples after blood is full of the liver lobe surfaces, starting timing until bleeding stops, and recording bleeding time and bleeding amount. The bleeding time is from the beginning of the liver lobe being filled with blood to the end of bleeding, and the bleeding amount is the weight difference of the non-woven fabric sample before and after bleeding.
And (3) testing mechanical properties: tensile strength testing was performed on a universal tensile tester according to the standard ASTM D638. The tensile test rate was 45 mm/min.
As can be seen from the data in the table, the experimental data results of examples 1 to 3 are all ideal, and the data result obtained in example 1 is better than that obtained in examples 1 to 2, so the experiments of examples 4 to 8 were performed with reference to the parameters in example 1, wherein in example 4, modified graphene oxide was added to the coating a, antibacterial microcapsules and porous starch were added to the coating B, and the hemostatic time and amount of the antibacterial coated nonwoven fabric obtained by directly coating the coating a and the coating B on a common nonwoven fabric are slightly worse than those of examples 1 to 3, but the antibacterial rate is generally only 89%, the tensile breaking strength is similar to that of the conventional nonwoven fabric, the tensile breaking strength is poorer, and the nonwoven fabric cannot be dissolved in water; in the embodiment 5, the modified graphene oxide is not added in the coating A, and other parameters are not changed, so that the antibacterial coated non-woven fabric obtained by coating the coating A and the coating B on the non-woven fabric substrate has general tensile breaking strength and poor antibacterial effect, and other parameters are remarkably improved compared with the traditional non-woven fabric; in the embodiment 6, the chitosan in the coating A is not modified by adding the lauric anhydride, and other parameters are not changed, so that the antibacterial medical coated non-woven fabric obtained by coating the coating A and the coating B on the non-woven fabric substrate has slightly longer hemostasis time and more bleeding amount compared with the embodiments 1-3, and the results of other parameters are ideal; the non-woven fabric substrate in example 7 is only coated with the coating a, and the other parameters are unchanged, so that the obtained antibacterial medical coated non-woven fabric has the advantages of large bleeding amount, long hemostasis time and poor antibacterial performance, wherein the antibacterial performance is only 59.9%, and the performances of the rest are improved compared with those of the traditional non-woven fabric; in the example 8, the non-woven fabric substrate is only coated with the coating B, and other parameters are not changed, so that the prepared antibacterial medical coated non-woven fabric has the advantages of common hemostasis time and bleeding amount, poor antibacterial performance, lower tensile breaking strength compared with the examples 1-3, and good performances of the rest.
From the above data we can conclude that: the common non-woven fabric has poor tensile breaking strength and bacteriostatic property and can adsorb bloodBacteria are easy to breed later, and the wound is easy to tear for the second time when the adhesive is forcibly taken down after being adhered to the wound. According to the invention, the nano zinc oxide whisker and the nano titanium dioxide whisker are added into the spinning solution to improve the mechanical property of the non-woven fabric substrate, increase the tensile breaking strength of the antibacterial medical coated non-woven fabric, and meanwhile, the nano zinc oxide whisker and the nano titanium dioxide whisker also have certain antibacterial capacity; the method loads Ag on the graphene oxide+The graphene oxide is modified to further improve the sterilization and antibacterial performance of the non-woven fabric, and the lauric anhydride is added into the chitosan to improve the hydrophobic performance and the blood coagulation performance of the coating A, accelerate wound healing and enhance the antibacterial capability of the non-woven fabric; the antibacterial microcapsule and the porous starch are added in the coating B, the porous starch is utilized to accelerate blood absorption and promote wound healing, and the antibacterial microcapsule is utilized to release natural antibacterial components to enhance the bactericidal effect. The result shows that the antibacterial medical coated non-woven fabric obtained by utilizing the synergistic effect of the coating A, the coating B and the non-woven fabric substrate has the advantages of good antibacterial effect, strongest hemostatic effect, minimum blood absorption, high tensile breaking strength, water solubility and very wide application prospect.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.
Claims (9)
1. The preparation method of the antibacterial medical coated non-woven fabric is characterized by comprising the following steps:
(1) preparing a non-woven fabric substrate:
A. preparing modified crystal whiskers: adding the nano zinc oxide whiskers and the nano titanium dioxide whiskers into an ethanol solution, uniformly mixing, adding a silane coupling agent, adjusting the pH value to 4-6, and continuously stirring for reaction for 30-60min to obtain modified whiskers;
B. preparing a non-woven fabric: adding N, N-dimethylformamide into the spinning solution, uniformly stirring, increasing the rotating speed to 1100-1300r/min, adding modified crystal whiskers, carrying out electrostatic spinning to obtain modified yarns, and preparing the modified yarns into non-woven fabrics A;
C. preparing a non-woven fabric substrate:
a) soaking the non-woven fabric A in ethanol for 15-25min, adding a sodium hydroxide solution at the temperature of 20-28 ℃, continuously stirring for reaction for 10-20min, taking out and airing to obtain a non-woven fabric B;
b) placing sodium hydroxide in chloroacetic acid solution, stirring for dissolving, sequentially adding acrylic acid and benzophenone, stirring uniformly, adjusting the pH value to 6-8, placing the non-woven fabric B into the solution, soaking for 1-2h, taking out, washing with ethanol, and placing the solution under an ultraviolet lamp for curing for 3-6h to obtain a non-woven fabric substrate;
(2) preparing a coating A;
A. preparing modified graphene oxide: placing graphene oxide in an ethanol solution for ultrasonic dispersion for 25-35min, sequentially adding zinc acetate and sodium hydroxide solutions, stirring and reacting for 1-2h, raising the temperature to 145-165 ℃, adding silver nitrate, continuously stirring, reacting for 20-24h at a constant temperature, washing and drying with deionized water, placing in a urea solution at 90-110 ℃, stirring and reacting for 20-40min, and washing and drying with deionized water again to obtain modified graphene oxide;
B. synthesis of coating A: adding chitosan into an acetic acid solution at room temperature, stirring and dissolving, raising the temperature to 50-60 ℃, adding lauric anhydride and an ethanol solution, continuing stirring, reacting at a constant temperature for 10-15h, sequentially adding glacial acetic acid, a coating base material and modified graphene oxide, and stirring to obtain a coating A;
C. coating the lower surface: coating the coating A on the lower surface of the non-woven fabric substrate, reacting for 8-10h, and curing for 3-6h under an ultraviolet lamp at the temperature of 120-;
(3) preparing a coating B:
A. preparing an antibacterial microcapsule:
dissolving ethyl cellulose in dichloromethane under stirring, adding plant extract and emulsifier, stirring at 1300r/min of 1100-;
B. synthesis of coating B: uniformly mixing chitosan, porous starch and deionized water at 50-60 ℃, sequentially adding anhydrous sodium carbonate and sodium trimetaphosphate, stirring for reacting for 1-2h, adjusting the pH to 5-7, sequentially adding an adhesive, an antibacterial microcapsule and agar, and stirring to obtain a coating B;
C. coating the upper surface: and coating the coating B on the upper surface of the non-woven fabric substrate, and curing for 3-6 hours under an ultraviolet lamp at the temperature of 120-150 ℃ to obtain the antibacterial non-woven fabric.
2. The method for preparing an antibacterial medical coated non-woven fabric according to claim 1, wherein the raw material components are as follows: 90-100 parts of non-woven fabric substrate, 15-25 parts of coating A and 15-25 parts of coating B.
3. The method for preparing an antibacterial medical coated non-woven fabric according to claim 1, wherein the non-woven fabric substrate comprises the following raw material components: 20-30 parts of modified crystal whisker, 70-90 parts of spinning solution, 8-12 parts of chloroacetic acid, 8-12 parts of acrylic acid and 8-12 parts of benzophenone in parts by weight; the spinning solution is one or more of polyurethane, polypropylene and polyglycolic acid.
4. The method for preparing an antibacterial medical coated non-woven fabric according to claim 3, wherein the modified whiskers comprise the following raw material components: 20-30 parts of nano zinc oxide whisker, 20-30 parts of nano titanium dioxide whisker and 10-16 parts of silane coupling agent.
5. The method for preparing an antibacterial medical coated non-woven fabric according to claim 1, wherein the coating A comprises the following raw material components: the coating comprises, by weight, 20-30 parts of modified graphene oxide, 12-14 parts of lauric anhydride, 10-20 parts of glacial acetic acid and 30-60 parts of a coating base material.
6. The preparation method of the antibacterial medical coated non-woven fabric according to claim 5, wherein the modified graphene oxide comprises the following raw material components: 50-60 parts of graphene oxide, 8-10 parts of zinc acetate, 10-20 parts of sodium hydroxide and 15-25 parts of silver nitrate.
7. The method for preparing an antibacterial medical coated non-woven fabric according to claim 1, wherein the coating layer B comprises the following raw material components: the coating comprises, by weight, 20-30 parts of antibacterial microcapsules, 30-40 parts of porous starch, 10-20 parts of anhydrous sodium carbonate, 10-16 parts of sodium trimetaphosphate and 40-60 parts of a coating base material.
8. The method for preparing an antibacterial medical coated non-woven fabric according to claim 1, wherein the coating base material comprises the following raw material components: 40-60 parts of chitosan, 15-25 parts of adhesive and 10-14 parts of agar; the adhesive is VAE emulsion; the porous starch is one or more of cassava porous starch, corn porous starch and wheat porous starch.
9. The method for preparing an antibacterial medical coated non-woven fabric according to claim 1, wherein the antibacterial microcapsule comprises the following raw material components: 20-40 parts of ethyl cellulose, 20-30 parts of plant extract, 10-18 parts of emulsifier, 30-50 parts of gelatin and 16-18 parts of sodium dodecyl sulfate; the plant extract is one or more of a purple daisy extract, a ginger extract and a grape seed extract; the emulsifier is span 80.
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