CN108744995B - A kind of antibacterial composite hollow fiber membrane and preparation method thereof - Google Patents

Abstract

A kind of antibacterial composite hollow fiber membrane and preparation method thereof.The present invention provides a kind of modified hollow fibre membranes, prepare raw material including following mass percent: the polysulfones of 12-14%, the pore-foaming agent of 8%-12%, the polyethylene glycol of 2-4% and the modified inorganic nano-particle of 1-4%, surplus are organic solvent.The present invention is modified tunica fibrosa by selection silver ion nanometer doped zinc oxide and silver ion doped nano titanium dioxide, increases the bacteriostasis rate of tunica fibrosa.The present invention improves the permeability to water and the removal effect to β2-microglobulin, reduces the loss of human serum albumins by adding a small amount of PEG-10000 and PEG-8000.

Description

A kind of antibacterial composite hollow fiber membrane and preparation method thereof

Technical field

The present invention relates to a kind of antibacterial composite hollow fiber membranes and preparation method thereof.

Background technique

Nano anti-biotic material is a kind of new material for having bacteriostasis property.Due to the high-specific surface area of antibacterial agent in material With the special effects of high reaction activity, whole antibacterial effect is substantially increased, can make microorganism includes bacterium, fungi, ferment The growth and breeding of female bacterium, algae and virus etc. keep lower level.Nano anti-biotic material can be divided into 3 by Antibacterial Mechanism again Class: the 1st class is metal molds nano antibacterial agents such as silver-colored (Ag)；2nd class is quaternary ammonium salt or quaternary alkylphosphonium salt modification inorganic nanoparticles； 3rd class is nano zine oxide (ZnO), the photocatalyst-types nano anti-biotic material such as nano-titanium dioxide (TiO2).

The membrane for purifying blood product clinically applied be required to it is sterile, generally use irradiation, steam, ethylene oxide etc. sterilizing Mode keeps product sterile, wherein irradiation is the preferred sterilization method of domestic and international manufacturer, including gamma irradiation and electron beam spoke According to.The parameter of most critical is sterilizing dose in irradiation, and sterilizing dose is excessively high, the membrane structure of destructible product and the support knot of membrane material Structure (such as shell), sterilizing dose are insufficient, are not able to satisfy the requirement of sterility assurance level, and when treatment, content of microorganisms is exceeded, Yi Fa Raw malpractice.The height of sterilizing dose, it is directly related with the quantity of the biological load of product or initial contaminating bacteria, therefore, In the raw material for forming product, anti-biotic material is added, can effectively inhibit the breeding of microorganism, keep the sterilizing dose of product In low-level, it is more advantageous to the performance for keeping product and material.

The core starting materials of membrane for purifying blood product are membrane materials, and common membrane material is the synthesis film such as polysulfones and polyether sulfone, Middle PS membrane has an excellent mechanical performance, chemical property, it is cheap the features such as, but its antibiotic property is poor.

Chinese patent (Publication No. CN 103572507A) discloses a kind of antibacterial ultraviolet-resistannanofiber silk fibroin nano-fiber film Preparation method improve the antibiotic property of PS membrane by the way that inorganic nano-particle is added in this article, however it is still not ideal enough.

Summary of the invention

On this basis, the present invention provides a kind of antibacterial composite hollow fiber membrane and preparation method thereof.

To achieve the above object, the technical solution used in the present invention: a kind of antibacterial composite hollow fiber membrane, including it is following Mass percent prepares raw material: the polysulfones of 12-14%, the pore-foaming agent of 8%-12%, the polyethylene glycol of 2-4% and 1-4% Modified inorganic nano-particle, surplus are organic solvent.

Preferably, the modified hollow fibre membrane includes the raw material for preparing of following mass percent: 13% polysulfones, 9% Pore-foaming agent, 3% polyethylene glycol, 1% inorganic nano-particle and 73% organic solvent.

Preferably, the polyethylene glycol is the mixture of PEG-10000 and PEG-8000.

Preferably, the mass ratio of the PEG-10000 and PEG-8000 is 5:1.

Preferably, the modified inorganic nano-particle be by inorganic nano-particle through lauryl sodium sulfate blending and modifying and ?.

It is highly preferred that the modified inorganic nano-particle is prepared by following methods:

It is to be modified in 25g/L sodium dodecyl sulfate solution that inorganic nano-particle, which is added to concentration, then uses vinegar The pH of modified mixed liquor is adjusted to 4.5 by acid, then uses mixed liquor after mixing evenly 300 mesh filter screens to be filtered, It is washed again with the dilute acetic acid solution that mass fraction is 6%, then the vacuum drying at 55 DEG C, obtains the modified inorganic and receive Rice corpuscles powder.

Preferably, the inorganic nano-particle is silver ion nanometer doped zinc oxide and silver ion doped nano titanium dioxide Mixture.

Preferably, the mass ratio of the silver ion nanometer doped zinc oxide and silver ion doped nano titanium dioxide is 1:1.

Preferably, the pore-foaming agent is polyvinylpyrrolidone.

Preferably, the organic solvent is n-methyl-2-pyrrolidone, in dimethylformamide, dimethyl acetamide It is at least one.

The present invention provides the preparation methods of modified hollow fibre membrane described above, comprising the following steps:

(1) polysulfones and pore-foaming agent are added in organic solvent, sufficiently dissolution is stirred at 55~65 DEG C；

(2) modified inorganic nano-particle is added into mixed solution under agitation and spinning original is made in polyethylene glycol Liquid；

(3) vacuumizing and defoaming is carried out at vacuum degree -0.7~-0.85bar and obtains spinning solution, and spinning solution is filtered, taken out very Empty deaeration, dry-wet spinning, washing, stretching and dry obtained antibacterial composite hollow fiber membrane.

The beneficial effects of the present invention are:

(1) present invention is by selection silver ion nanometer doped zinc oxide and silver ion doped nano titanium dioxide to tunica fibrosa It is modified, increases the bacteriostasis rate of tunica fibrosa.

(2) present invention improves membrane material and produces to the permeability and film of water by adding a small amount of PEG-10000 and PEG-8000 Product reduce the loss of human serum albumins to the removal effect of β2-microglobulin.

Specific embodiment

Embodiment 1

A kind of embodiment of antibacterial composite hollow fiber membrane of the present invention prepares raw material including following mass percent: 13% polysulfones, 9% pore-foaming agent, 3% polyethylene glycol, 1% inorganic nano-particle and 74% organic solvent.Wherein institute Stating pore-foaming agent is polyvinylpyrrolidone.The polyethylene glycol is the mixture of PEG-10000 and PEG-8000, the PEG- The mass ratio of 10000 and PEG-8000 is 5:1.The modified inorganic nano-particle be silver ion nanometer doped zinc oxide and silver from The mixture of sub- doped nano titanium dioxide, the doping of silver ion is 1wt% in silver ion nanometer doped zinc oxide, silver from The doping of silver ion is 1wt% in sub- doped nano titanium dioxide, and the silver ion nanometer doped zinc oxide and silver ion are mixed The mass ratio of miscellaneous nano-titanium dioxide is 1:1.The organic solvent is dimethylformamide.

The modified inorganic nano-particle is prepared by following methods:

It is to be modified in 25g/L sodium dodecyl sulfate solution that inorganic nano-particle, which is added to concentration, then uses vinegar The pH of modified mixed liquor is adjusted to 4.5 by acid, then uses mixed liquor after mixing evenly 300 mesh filter screens to be filtered, It is washed again with the dilute acetic acid solution that mass fraction is 6%, then the vacuum drying at 55 DEG C, obtains the modified inorganic and receive Rice corpuscles powder.

The preparation method of antibacterial composite hollow fiber membrane described above, comprising the following steps:

(1) polysulfones and pore-foaming agent are added in organic solvent, sufficiently dissolution is stirred at 60 DEG C；

(2) polyethylene glycol is added into mixed solution under agitation and spinning solution is made；

(3) vacuumizing and defoaming being carried out at vacuum degree -0.85bar and obtaining spinning solution, spinning solution filtered, it is de- to vacuumize Bubble, dry-wet spinning, washing, stretching and dry obtained antibacterial composite hollow fiber membrane.

Embodiment 2

A kind of embodiment of antibacterial composite hollow fiber membrane of the present invention prepares raw material including following mass percent: 13% polysulfones, 9% pore-foaming agent, 3% polyethylene glycol, 1% inorganic nano-particle and 74% organic solvent.Wherein institute Stating pore-foaming agent is polyvinylpyrrolidone.The polyethylene glycol is the mixture of PEG-10000 and PEG-8000, the PEG- The mass ratio of 10000 and PEG-8000 is 5:1.The modified inorganic nano-particle be silver ion nanometer doped zinc oxide, silver from The doping of silver ion is 1wt% in sub- nanometer doped zinc oxide.The organic solvent is dimethylformamide.

The antibacterial composite nano inoganic particle is prepared by following methods:

It is to be modified in 25g/L sodium dodecyl sulfate solution that inorganic nano-particle, which is added to concentration, then uses vinegar The pH of modified mixed liquor is adjusted to 4.5 by acid, then uses mixed liquor after mixing evenly 300 mesh filter screens to be filtered, It is washed again with the dilute acetic acid solution that mass fraction is 6%, then the vacuum drying at 55 DEG C, obtains the modified inorganic and receive Rice corpuscles powder.

The preparation method of antibacterial composite hollow fiber membrane described above, comprising the following steps:

(1) polysulfones and pore-foaming agent are added in organic solvent, sufficiently dissolution is stirred at 60 DEG C；

(2) modified inorganic nano-particle is added into mixed solution under agitation and spinning original is made in polyethylene glycol Liquid；

(3) vacuumizing and defoaming being carried out at vacuum degree -0.85bar and obtaining spinning solution, spinning solution filtered, it is de- to vacuumize Bubble, dry-wet spinning, washing, stretching and dry obtained antibacterial composite hollow fiber membrane.

Embodiment 3

A kind of embodiment of antibacterial composite hollow fiber membrane of the present invention prepares raw material including following mass percent: 13% polysulfones, 9% pore-foaming agent, 3% polyethylene glycol, 1% inorganic nano-particle and 74% organic solvent.Wherein institute Stating pore-foaming agent is polyvinylpyrrolidone.The polyethylene glycol is the mixture of PEG-10000 and PEG-8000, the PEG- The mass ratio of 10000 and PEG-8000 is 5:1.Inorganic nano-particle in the modified inorganic nano-particle is silver ion doping Nano-titanium dioxide, the doping of silver ion is 1wt% in silver ion doped nano titanium dioxide.The organic solvent is diformazan Base formamide.

The modified inorganic nano-particle is prepared by following methods:

It is to be modified in 25g/L sodium dodecyl sulfate solution that inorganic nano-particle, which is added to concentration, then uses vinegar The pH of modified mixed liquor is adjusted to 4.5 by acid, then uses mixed liquor after mixing evenly 300 mesh filter screens to be filtered, It is washed again with the dilute acetic acid solution that mass fraction is 6%, then the vacuum drying at 55 DEG C, obtains the modified inorganic and receive Rice corpuscles powder.

The preparation method of antibacterial composite hollow fiber membrane described above, comprising the following steps:

(1) polysulfones and pore-foaming agent are added in organic solvent, sufficiently dissolution is stirred at 60 DEG C；

(2) modified inorganic nano-particle is added into mixed solution under agitation and spinning original is made in polyethylene glycol Liquid；

(3) vacuumizing and defoaming being carried out at vacuum degree -0.85bar and obtaining spinning solution, spinning solution filtered, it is de- to vacuumize Bubble, dry-wet spinning, washing, stretching and dry obtained antibacterial composite hollow fiber membrane.

Embodiment 4

A kind of embodiment of antibacterial composite hollow fiber membrane of the present invention prepares raw material including following mass percent: 13% polysulfones, 9% pore-foaming agent, 3% polyethylene glycol, 1% inorganic nano-particle and 74% organic solvent.Wherein institute Stating pore-foaming agent is polyvinylpyrrolidone.The polyethylene glycol is PEG-10000.The modified inorganic nano-particle is silver ion The mixture of nanometer doped zinc oxide and silver ion doped nano titanium dioxide, silver ion in silver ion nanometer doped zinc oxide Doping be 1wt%, the doping of silver ion is 1wt% in silver ion doped nano titanium dioxide, the silver ion doping The mass ratio of nano zine oxide and silver ion doped nano titanium dioxide is 1:1.The organic solvent is dimethylformamide.

The modified inorganic nano-particle is prepared by following methods:

It is to be modified in 25g/L sodium dodecyl sulfate solution that inorganic nano-particle, which is added to concentration, then uses vinegar The pH of modified mixed liquor is adjusted to 4.5 by acid, then uses mixed liquor after mixing evenly 300 mesh filter screens to be filtered, It is washed again with the dilute acetic acid solution that mass fraction is 6%, then the vacuum drying at 55 DEG C, obtains the modified inorganic and receive Rice corpuscles powder.

The preparation method of antibacterial composite hollow fiber membrane described above, comprising the following steps:

(1) polysulfones and pore-foaming agent are added in organic solvent, sufficiently dissolution is stirred at 60 DEG C；

(2) polyethylene glycol is added into mixed solution under agitation and spinning solution is made；

(3) vacuumizing and defoaming being carried out at vacuum degree -0.85bar and obtaining spinning solution, spinning solution filtered, it is de- to vacuumize Bubble, dry-wet spinning, washing, stretching and dry obtained antibacterial composite hollow fiber membrane.

Comparative example 1

This comparative example hollow-fibre membrane includes the raw material for preparing of following mass percent: 13% polysulfones, 9% pore Agent, 3% polyethylene glycol, 1% inorganic nano-particle and 74% organic solvent.Wherein the pore-foaming agent is polyvinyl pyrrole Alkanone.The polyethylene glycol is PEG-20000.The modified inorganic nano-particle be silver ion nanometer doped zinc oxide and silver from The mixture of sub- doped nano titanium dioxide, the doping of silver ion is 1wt% in silver ion nanometer doped zinc oxide, silver from The doping of silver ion is 1wt% in sub- doped nano titanium dioxide, and the silver ion nanometer doped zinc oxide and silver ion are mixed The mass ratio of miscellaneous nano-titanium dioxide is 1:1.The organic solvent is dimethylformamide.

The modified inorganic nano-particle is prepared by following methods:

It is to be modified in 25g/L sodium dodecyl sulfate solution that inorganic nano-particle, which is added to concentration, then uses vinegar The pH of modified mixed liquor is adjusted to 4.5 by acid, then uses mixed liquor after mixing evenly 300 mesh filter screens to be filtered, It is washed again with the dilute acetic acid solution that mass fraction is 6%, then the vacuum drying at 55 DEG C, obtains the modified inorganic and receive Rice corpuscles powder.

The preparation method of hollow-fibre membrane described above, comprising the following steps:

(1) polysulfones and pore-foaming agent are added in organic solvent, sufficiently dissolution is stirred at 60 DEG C；

(2) polyethylene glycol is added into mixed solution under agitation and spinning solution is made；

(3) vacuumizing and defoaming being carried out at vacuum degree -0.85bar and obtaining spinning solution, spinning solution filtered, it is de- to vacuumize Bubble, dry-wet spinning, washing, stretching and dry obtained hollow-fibre membrane.

Performance test

Using 1-4 antibacterial composite hollow fiber membrane of the embodiment of the present invention and comparative example doughnut film preparation haemodialysis Device, the raw material of each embodiment are shown in Table 1, then carry out simulated experiment, characterize the performance of membrane material and performance (the screening system of film product Number), the results are shown in Table 2.

1 raw material of table

2 the performance test results of table

As can be seen from Table 2, the present invention passes through selection silver ion nanometer doped zinc oxide and silver ion dopen Nano Titanium dioxide is modified tunica fibrosa, increases the bacteriostasis rate of tunica fibrosa.

By table 2 it is also seen that improving membrane material to the permeability of water by adding a small amount of PEG-10000 and PEG-8000 With film product to the screening efficiency of β2-microglobulin, film product is reduced to the screening efficiency of human serum albumins, is illustrated a small amount of PEG-10000 and PEG-8000 be conducive to remove the middle molecule toxins such as β2-microglobulin, and inhibit human serum albumins etc. to have The loss of beneficial substance.

Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention rather than protects to the present invention The limitation of range is protected, although the invention is described in detail with reference to the preferred embodiments, those skilled in the art should Understand, it can be with modification or equivalent replacement of the technical solution of the present invention are made, without departing from the essence of technical solution of the present invention And range.

Claims (6)

1. a kind of antibacterial composite hollow fiber membrane, which is characterized in that prepare raw material including following mass percent: 12-14% Polysulfones, the pore-foaming agent of 8%-12%, the polyethylene glycol of 2-4% and 1-4% modified inorganic nano-particle, surplus be it is organic molten Agent；

The polyethylene glycol is the mixture of PEG-10000 and PEG-8000；The mass ratio of the PEG-10000 and PEG-8000 For 5:1；The modified inorganic nano-particle is by inorganic nano-particle through obtained by lauryl sodium sulfate blending and modifying, described Inorganic nano-particle is the mixture of silver ion nanometer doped zinc oxide and silver ion doped nano titanium dioxide.

2. antibacterial composite hollow fiber membrane according to claim 1, which is characterized in that the system including following mass percent Standby raw material: 13% polysulfones, 9% pore-foaming agent, 3% polyethylene glycol, 1% modified inorganic nano-particle and 73% it is organic Solvent.

3. antibacterial composite hollow fiber membrane according to claim 1, which is characterized in that the silver ion dopen Nano oxidation The mass ratio of zinc and silver ion doped nano titanium dioxide is 1:1.

4. antibacterial composite hollow fiber membrane according to claim 1, which is characterized in that the pore-foaming agent is polyvinyl pyrrole Alkanone.

5. antibacterial composite hollow fiber membrane according to claim 1, which is characterized in that the organic solvent is N- methyl- At least one of 2-Pyrrolidone, dimethylformamide, dimethyl acetamide.

6. a kind of preparation method of antibacterial composite hollow fiber membrane a method as claimed in any one of claims 1 to 5, which is characterized in that including Following steps:

(1) polysulfones and pore-foaming agent are added in organic solvent, sufficiently dissolution is stirred at 55~65 DEG C；

(2) modified inorganic nano-particle is added into mixed solution under agitation and spinning solution is made in polyethylene glycol；

(3) vacuumizing and defoaming being carried out at vacuum degree -0.7~-0.85bar and obtaining spinning solution, spinning solution filtered, it is de- to vacuumize Bubble, dry-wet spinning, washing, stretching and dry obtained antibacterial composite hollow fiber membrane.