CN108380047A - Graphene oxide composite nano filter membrane and preparation method thereof with ion selectivity separation - Google Patents

Abstract

The present invention provides a kind of graphene oxide composite nano filter membranes and preparation method thereof with ion selectivity separation.Graphene oxide composite nano filter membrane is composite membrane, nanoscale separating layer including non-woven fabrics supporting layer, Polymer interlayers and functionalization, the nanoscale separating layer of non-woven fabrics supporting layer, Polymer interlayers and functionalization is set gradually from top to bottom, includes monolithic layer nano graphene oxide in the nanoscale separating layer of functionalization.Non-woven fabrics supporting layer is functionalization non-woven fabrics, using integral multi-layered structure.Polymer interlayers material is polysulfones, and section pore structure is asymmetric spongy and finger-like pore mixed structure.The present invention in interfacial polymerization process by introducing monolithic layer nano graphene oxide, improve the hydrophily and ion transportation of nanofiltration film surface, again since the pattern of monolithic layer nano graphene oxide is lamella pleated structure, the surface topography for imparting NF membrane pleated structure improves the surface area of NF membrane.

Description

Graphene oxide composite nano filter membrane and preparation method thereof with ion selectivity separation

Technical field

The present invention relates to Nanofiltration-membrane technique field more particularly to a kind of graphene oxide with ion selectivity separation are multiple Close NF membrane and preparation method thereof.

Background technology

NF membrane be between ultrafiltration and it is reverse osmosis between novel membrane separation technique, prepare high retention, high-throughput and anti-pollution Type NF membrane is always research hotspot, however how to realize that the balance of flux and rejection between the two is always a problem.

In recent years, GO (graphene oxide, graphene oxide) is due to its special structure and performance always research Hot spot.GO is a kind of derivative of graphene, is substantially the same with graphene-structured, the two dimension only constituted in one layer of carbon atom It is connected with a large amount of oxygen-containing hydrophilic functional groups, such as-OH ,-O- ,-COOH on the basal plane that space infinitely extends ,-C=O etc., thus There is good dispersibility in water.GO films have liquid water ultrafast transmission rate, and in terms of ion isolation, GO has ion Select the characteristic penetrated.

Currently, there are no realize the method for being effectively bonded together GO and NF membrane in the prior art.

Invention content

The embodiment provides it is a kind of with ion selectivity separation graphene oxide composite nano filter membrane and its Preparation method, to improve the hydrophily and ion transportation of nanofiltration film surface.

To achieve the goals above, this invention takes following technical solutions.

According to an aspect of the invention, there is provided a kind of graphene oxide composite nanometer filter with ion selectivity separation Film, the graphene oxide composite nano filter membrane be composite membrane, including non-woven fabrics supporting layer, Polymer interlayers and functionalization are received The nanoscale separating layer of meter level separating layer, the non-woven fabrics supporting layer, Polymer interlayers and functionalization is set successively from top to bottom It sets, includes monolithic layer nano graphene oxide in the nanoscale separating layer of the functionalization.

Further, the pattern of the monolithic layer nano graphene oxide is lamella pleated structure.

Further, the non-woven fabrics supporting layer is functionalization non-woven fabrics, and using integral multi-layered structure, thickness is in 95 μ M, unit area grammes per square metre are 76g/m², air permeability 2cc/cm²/sec。

Further, the Polymer interlayers material is polysulfones, and layer thickness is 30 μm of ± 2um, section pore structure right and wrong The spongy and finger-like pore mixed structure of symmetric form, pore diameter range is between 0.001 μm to 10 μm；

Further, the nanoscale separating layer of the functionalization is the PA membrane of piperazine system, the water of the PA membrane Phase monomer includes piperazine, additive, acid absorbent, moisturizer, and the oil phase monomer of the PA membrane is pyromellitic trimethylsilyl chloride, this is poly- The solvent of amide film is IsoparG, IsoparE, n-hexane, ethyl cyclohexane, normal heptane are one such or several.

Further, the piperazine concentration is between 0.3-1%；

The additive be monolithic layer nano graphene oxide, lamellar spacing 0.5-5nm, a diameter of ＜ 400nm of lamella, Content is 10ppm-500ppm；

The acid absorbent is organic amine, content 0.5-3%；

The moisturizer be small molecule alcohol, content 0.5-4%,

The pH value of the aqueous phase monomers is 8-12,

A concentration of 0.05%-1% of the oil phase monomer pyromellitic trimethylsilyl chloride.

According to another aspect of the present invention, a kind of graphene oxide with ion selectivity separation is provided compound to receive The preparation method of filter membrane, including；

(1) prepared by Polymer interlayers：Non-woven fabrics supporting layer diaphragm is chosen, polymer feed liquid is homogeneously applied to described The surface of non-woven fabrics supporting layer diaphragm, by adjusting the distance between coating head and non-woven fabrics supporting layer diaphragm and polymer feed liquid Inlet amount adjust the thickness of non-woven fabrics supporting layer, passing through gel slot, rinse bath, quenching tank later makes non-woven fabrics support tunic Piece cleans and sizing, obtains the counterdie of Polymer interlayers；

(2) prepared by the nanoscale separating layer of functionalization：Water phase containing graphene oxide is ultrasonically treated, water phase is made Solution uniformly mixes, and the single-side impregnated aqueous phase solution 5S-20min of the counterdie of the Polymer interlayers is gone by air knife purging It is thin that one layer of aqueous solution is formed except the surface water phase of the counterdie of the Polymer interlayers, on the counterdie of the Polymer interlayers Film, then 5s-1min will be kept in organic phase solution of the counterdie dipping containing pyromellitic trimethylsilyl chloride of Polymer interlayers, pass through baking Case makes water phase that interface polymerization reaction setting time occur with oil phase, and it is compound to obtain the graphene oxide that there is ion selectivity to detach NF membrane.

Further, the counterdie of the Polymer interlayers of preparation is soaked in deionized water and is stayed with spare.

Further, the temperature of the baking oven is 60-110 DEG C, and optimum temperature is 80 DEG C, and the setting time is 1- 5min。

The present invention is by interfacial polymerization process it can be seen from the technical solution that embodiments of the invention described above provide Monolithic layer nano graphene oxide is introduced, improves the hydrophily and ion transportation of nanofiltration film surface, and due to monolithic layer The pattern of nano graphene oxide is lamella pleated structure, imparts the surface topography of NF membrane pleated structure, improves nanofiltration The surface area of film makes graphene oxide composite nano filter membrane have higher water flux, and shows to divalent Ca²⁺、Mg²⁺Ion With higher removal rate, to monovalent Na⁺、K⁺The performance of the relatively low removal rate of ion.

The additional aspect of the present invention and advantage will be set forth in part in the description, these will become from the following description Obviously, or practice through the invention is recognized.

Description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, required use in being described below to embodiment Attached drawing be briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for this For the those of ordinary skill of field, without creative efforts, others are can also be obtained according to these attached drawings Attached drawing.

Fig. 1 is a kind of surface Electronic Speculum schematic diagram of polysulfones middle layer provided in an embodiment of the present invention；

Fig. 2 is a kind of surface Electronic Speculum schematic diagram of NF membrane provided in an embodiment of the present invention；

Fig. 3 is a kind of surface Electronic Speculum schematic diagram of graphene oxide composite nano filter membrane provided in an embodiment of the present invention；

Fig. 4 is a kind of PIP＆PIP-GO contact angles schematic diagram provided in an embodiment of the present invention.

PIP-GO is significantly improved compared with PIP hydrophilies

Specific implementation mode

Embodiments of the present invention are described below in detail, the example of the embodiment is shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, and is only used for explaining the present invention, and is not construed as limiting the claims.

Those skilled in the art of the present technique are appreciated that unless expressly stated, singulative " one " used herein, " one It is a ", " described " and "the" may also comprise plural form.It is to be further understood that is used in the specification of the present invention arranges It refers to there are the feature, integer, step, operation, element and/or component, but it is not excluded that presence or addition to take leave " comprising " Other one or more features, integer, step, operation, element, component and/or their group.It should be understood that when we claim member Part is " connected " or when " coupled " to another element, it can be directly connected or coupled to other elements, or there may also be Intermediary element.In addition, " connection " used herein or " coupling " may include being wirelessly connected or coupling.Wording used herein "and/or" includes any cell of one or more associated list items and all combines.

Those skilled in the art of the present technique are appreciated that unless otherwise defined, all terms used herein (including technology art Language and scientific terminology) there is meaning identical with the general understanding of the those of ordinary skill in fields of the present invention.Should also Understand, those terms such as defined in the general dictionary, which should be understood that, to be had and the meaning in the context of the prior art The consistent meaning of justice, and unless defined as here, will not be with idealizing or the meaning of too formal be explained.

For ease of the understanding to the embodiment of the present invention, done further by taking several specific embodiments as an example below in conjunction with attached drawing Explanation, and each embodiment does not constitute the restriction to the embodiment of the present invention.

An embodiment of the present invention provides a kind of graphene oxide composite nano filter membrane with ion selectivity separation, the oxidations Graphene composite nanometer filtering film is composite membrane, includes the nanoscale separating layer of non-woven fabrics supporting layer, Polymer interlayers and functionalization, The nanoscale separating layer of the non-woven fabrics supporting layer, Polymer interlayers and functionalization is set gradually from top to bottom.Functionalization It include monolithic layer nano graphene oxide in nanoscale separating layer.

Non-woven fabrics supporting layer is functionalization non-woven fabrics, and using integral multi-layered structure, thickness is at 95 μm, unit area grammes per square metre For 76g/m², air permeability 2cc/cm²/sec。

Polymer interlayers material is polysulfones, and layer thickness is 30 μm of ± 2um, and section pore structure is asymmetric spongy And finger-like pore mixed structure, pore diameter range is between 0.001 μm to 10 μm；

The nanoscale separating layer of functionalization is the PA membrane of piperazine system, and PA membrane aqueous phase monomers include piperazine, add Add agent, acid absorbent, moisturizer, the oil phase monomer of the PA membrane is pyromellitic trimethylsilyl chloride, and the solvent of the PA membrane is IsoparG, IsoparE, n-hexane, ethyl cyclohexane, normal heptane are one such or several.Piperazine concentration be 0.3-1% it Between, preferably 0.5-0.75%.Additive is monolithic layer nano graphene oxide, lamellar spacing 0.5-5nm, a diameter of ＜ of lamella 400nm, content 10ppm-500ppm, preferably 50-200ppm.Acid absorbent is organic amine, content 0.5-3%.Moisturizer For small molecule alcohol, content 0.5-4%.Aqueous phase monomers pH is 8~12, preferably pH=10-11.5.The equal benzene front three of oil phase monomer Acyl chlorides a concentration of 0.05%-1%, preferably 0.08-0.5%.

The embodiment of the present invention additionally provides a kind of system of the graphene oxide composite nano filter membrane with ion selectivity separation Preparation Method comprises the steps of：

(1) prepared by Polymer interlayers：The integrality of polymer middle support layer is to forming intact separating layer to closing weight It wants, the present invention chooses non-woven fabrics supporting layer diaphragm, polymer feed liquid is equably applied in such a way that slit extrusion quantitatively coats It is overlying on the surface of the non-woven fabrics supporting layer diaphragm, by adjusting the distance between coating head and non-woven fabrics supporting layer diaphragm and gathering The inlet amount of material liquid is closed to adjust the thickness of non-woven fabrics supporting layer, passing through gel slot, rinse bath, quenching tank later makes non-woven fabrics Supporting layer diaphragm cleans and sizing, obtains the counterdie of Polymer interlayers.Then, the counterdie of the Polymer interlayers of preparation is soaked It steeps and is stayed in deionized water with spare, be sure not the counterdie of Polymer interlayers being positioned in dry air, prevent counterdie from losing Water is ineffective.

(2) prepared by the nanoscale separating layer of functionalization：The water phase containing graphene oxide is ultrasonically treated first, is made Aqueous phase solution uniformly mixes.Then, by the single-side impregnated aqueous phase solution 5S-20min of the counterdie of the Polymer interlayers, pass through wind Knife purging removes the surface water phase of the counterdie of the Polymer interlayers, and one layer of water is formed on the counterdie of the Polymer interlayers Solution film, it is sure not to be driven away water phase with rubber roller, the structure of destructible graphene oxide.Again by the counterdie of Polymer interlayers Dipping keeps 5s-1min in the organic phase solution containing pyromellitic trimethylsilyl chloride, makes water phase that interface occur with oil phase by baking oven and gathers Reaction setting time is closed, the graphene oxide composite nano filter membrane that there is ion selectivity to detach is obtained.It in practical applications, can be with The baking oven that temperature in use is 60-110 DEG C, optimum temperature are 80 DEG C, continue interface polymerization reaction under this temperature condition 1-5min, optimum reacting time 2min.

Embodiment 1：

It is prepared by Polymer interlayers：

In such a way that slit extrusion quantitatively coats, polymer feed liquid is homogeneously applied to support layer surface, passes through tune Section coating head at a distance from support interlayer and inlet amount adjusts support layer thickness, later by gel slot, rinse bath, quenching tank So that diaphragm is cleaned and is shaped to get to Polymer interlayers, then the counterdie of preparation is soaked in deionized water and is stayed with spare.

It is prepared by the nanoscale separating layer of functionalization：

First by 0.6%PIP, 2.5% acid absorbent and 1.5% moisturizer, the aqueous phase solution of pH=11 carries out at ultrasound 30min is managed, it is made to be sufficiently mixed uniformly；

Oil phase monomer is 0.15% pyromellitic trimethylsilyl chloride, solvent IsoparE.

By the single-side impregnated aqueous phase solution 10S of counterdie, surface water phase is removed by the purging of air knife, then counterdie dipping is contained 10s is kept in the organic phase solution of pyromellitic trimethylsilyl chloride, makes aqueous phase monomers that interface polymerization reaction occur with oil phase monomer, finally leads to 2min is dried under the oven conditions that excess temperature is 80 DEG C, removes solvent.

Embodiment 2：

It is prepared by Polymer interlayers：

In such a way that slit extrusion quantitatively coats, polymer feed liquid is homogeneously applied to support layer surface, passes through tune Section coating head at a distance from support interlayer and inlet amount adjusts support layer thickness, later by gel slot, rinse bath, quenching tank So that diaphragm is cleaned and is shaped to get to Polymer interlayers, then the counterdie of preparation is soaked in deionized water and is stayed with spare.

It is prepared by the nanoscale separating layer of functionalization：

First by 0.6%PIP, 100ppm graphene oxide, 2.5% acid absorbent and 1.5% moisturizer, the water of pH=11 Phase solution carries out supersound process 30min, it is made to be sufficiently mixed uniformly；

Oil phase monomer is 0.15% pyromellitic trimethylsilyl chloride, solvent IsoparE.

By the single-side impregnated aqueous phase solution 10S of counterdie, surface water phase is removed by the purging of air knife, then counterdie dipping is contained 5s is kept in the organic phase solution of pyromellitic trimethylsilyl chloride, makes aqueous phase monomers that interface polymerization reaction occur with oil phase monomer, finally leads to 2min is dried under the oven conditions that excess temperature is 80 DEG C, removes solvent.

Embodiment 3：

It is prepared by Polymer interlayers：

In such a way that slit extrusion quantitatively coats, polymer feed liquid is homogeneously applied to support layer surface, passes through tune Section coating head at a distance from support interlayer and inlet amount adjusts support layer thickness, later by gel slot, rinse bath, quenching tank So that diaphragm is cleaned and is shaped to get to Polymer interlayers, then the counterdie of preparation is soaked in deionized water and is stayed with spare.

It is prepared by the nanoscale separating layer of functionalization：

First by 0.75%PIP, 2.5% acid absorbent and 1.5% moisturizer, the aqueous phase solution of pH=10.5 carries out ultrasound 30min is handled, it is made to be sufficiently mixed uniformly；

Oil phase monomer is 0.08% pyromellitic trimethylsilyl chloride, and solvent is n-hexane.

By the single-side impregnated aqueous phase solution 10S of counterdie, surface water phase is removed by the purging of air knife, then counterdie dipping is contained 5s is kept in the organic phase solution of pyromellitic trimethylsilyl chloride, makes aqueous phase monomers that interface polymerization reaction occur with oil phase monomer, finally leads to Drying and shaping 2min under the oven conditions that excess temperature is 80 DEG C.

Embodiment 4：

It is prepared by Polymer interlayers：

In such a way that slit extrusion quantitatively coats, polymer feed liquid is homogeneously applied to support layer surface, passes through tune Section coating head at a distance from support interlayer and inlet amount adjusts support layer thickness, later by gel slot, rinse bath, quenching tank So that diaphragm is cleaned and is shaped to get to Polymer interlayers, then the counterdie of preparation is soaked in deionized water and is stayed with spare.

It is prepared by the nanoscale separating layer of functionalization：

First by 0.75%PIP, 200ppm graphene oxide, 2.5% acid absorbent and 1.5% moisturizer, pH=10.5 Aqueous phase solution carry out supersound process 30min, so that it is sufficiently mixed uniformly；

Oil phase monomer is 0.08% pyromellitic trimethylsilyl chloride, and solvent is n-hexane.

By the single-side impregnated aqueous phase solution 10S of counterdie, surface water phase is removed by the purging of air knife, then counterdie dipping is contained 5s is kept in the organic phase solution of pyromellitic trimethylsilyl chloride, makes aqueous phase monomers that interface polymerization reaction occur with oil phase monomer, finally leads to Drying and shaping 2min under the oven conditions that excess temperature is 80 DEG C.

The graphene oxide composite nano filter membrane performance data such as following table with ion selectivity separation of the embodiment of the present invention 1, shown in table 2.

Table 1

Performance	Example 1	Example 2	Example 3	Example 4
					F/LMH	60.47	71.80	53.46	62.31
R/%	97.63	97.42	98.06	97.88

Test condition：2000ppm MgSO₄, 70psi, pH=7-8

Table 2

Test condition：250ppm CaCl₂60psi 7~8；

250ppm NaCl 60psi 7~8

Fig. 1 is a kind of surface Electronic Speculum schematic diagram of polysulfones middle layer provided in an embodiment of the present invention；Polysulfones interlayer surfaces Pattern is porous structure.

Fig. 2 is a kind of surface Electronic Speculum schematic diagram of NF membrane provided in an embodiment of the present invention；Nanofiltration environmental microbes are smooth It is smooth.

Fig. 3 is a kind of surface Electronic Speculum schematic diagram of graphene oxide composite nano filter membrane provided in an embodiment of the present invention；Oxidation Graphene composite nanometer filter environmental microbes are lamella pleated structure.

Fig. 4 is a kind of PIP＆PIP-GO contact angles schematic diagram provided in an embodiment of the present invention, and PIP-GO composite membranes are compared with PIP films Contact angle is remarkably decreased, and hydrophily significantly improves.

In conclusion the present invention is improved and is received by introducing monolithic layer nano graphene oxide in interfacial polymerization process The hydrophily and ion transportation of filter membrane surface, and since the pattern of monolithic layer nano graphene oxide is lamella fold knot Structure imparts the surface topography of NF membrane pleated structure, improves the surface area of NF membrane, makes graphene oxide composite nano filter membrane With higher water flux, and show to divalent Ca²⁺、Mg²⁺Ion has higher removal rate, to monovalent Na⁺、K⁺Ion is relatively low The performance of removal rate.

Graphene oxide composite nano filter membrane provided in an embodiment of the present invention with ion selectivity separation can be relatively low Pressure under Ca in selective removal hard water²⁺、Mg²⁺Ion retains Na beneficial in water⁺、K⁺Ion, selective removal is certainly Water harmful substance retains the small organic molecule and low price inorganic salts beneficial to body, and water outlet is in good taste, and container is not after heating up water Incrustation scale is generated, drinking water and water purification field are can be widely applied to.In addition, since the introducing of graphene oxide improves NF membrane table The hydrophily in face makes it show good antifouling property.Such graphene oxide with ion selectivity separation is compound NF membrane has broad application prospects in fields such as drinking water, water purification and sewage disposal technologies.

One of ordinary skill in the art will appreciate that：Attached drawing is the schematic diagram of one embodiment, module in attached drawing or Flow is not necessarily implemented necessary to the present invention.

Each embodiment in this specification is described in a progressive manner, identical similar portion between each embodiment Point just to refer each other, and each embodiment focuses on the differences from other embodiments.Especially for device or For system embodiment, since it is substantially similar to the method embodiment, so describing fairly simple, related place is referring to method The part of embodiment illustrates.Apparatus and system embodiment described above is only schematical, wherein the conduct The unit that separating component illustrates may or may not be physically separated, the component shown as unit can be or Person may not be physical unit, you can be located at a place, or may be distributed over multiple network units.It can root According to actual need that some or all of module therein is selected to achieve the purpose of the solution of this embodiment.Ordinary skill Personnel are without creative efforts, you can to understand and implement.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Any one skilled in the art in the technical scope disclosed by the present invention, the change or replacement that can be readily occurred in, It should be covered by the protection scope of the present invention.Therefore, protection scope of the present invention should be with scope of the claims Subject to.

Claims (9)

1. a kind of graphene oxide composite nano filter membrane with ion selectivity separation, which is characterized in that the graphene oxide Composite nanometer filtering film is composite membrane, includes the nanoscale separating layer of non-woven fabrics supporting layer, Polymer interlayers and functionalization, the nothing The nanoscale separating layer of woven fabric supporting layer, Polymer interlayers and functionalization is set gradually from top to bottom, and the functionalization is received It include monolithic layer nano graphene oxide in meter level separating layer.

2. the graphene oxide composite nano filter membrane according to claim 1 with ion selectivity separation, which is characterized in that The pattern of the monolithic layer nano graphene oxide is lamella pleated structure.

3. the graphene oxide composite nano filter membrane according to claim 1 with ion selectivity separation, which is characterized in that The non-woven fabrics supporting layer is functionalization non-woven fabrics, and using integral multi-layered structure, thickness is in 95 μm, unit area grammes per square metre 76g/m², air permeability 2cc/cm²/sec。

4. the graphene oxide composite nano filter membrane according to claim 1 with ion selectivity separation, which is characterized in that The Polymer interlayers material is polysulfones, and layer thickness is 30 μm of ± 2um, and section pore structure is asymmetric spongy and refers to Shape hole mixed structure, pore diameter range is between 0.001 μm to 10 μm.

5. the graphene oxide composite nano filter membrane according to any one of claims 1 to 4 with ion selectivity separation, It is characterized in that, the nanoscale separating layer of the functionalization is the PA membrane of piperazine system, the aqueous phase monomers packet of the PA membrane Piperazine, additive, acid absorbent, moisturizer are included, the oil phase monomer of the PA membrane is pyromellitic trimethylsilyl chloride, the PA membrane Solvent is IsoparG, IsoparE, n-hexane, ethyl cyclohexane, normal heptane are one such or several.

6. the graphene oxide composite nano filter membrane according to claim 5 with ion selectivity separation, it is characterised in that：

The piperazine concentration is between 0.3-1%；

The additive is monolithic layer nano graphene oxide, lamellar spacing 0.5-5nm, a diameter of ＜ 400nm of lamella, content For 10ppm-500ppm；

The acid absorbent is organic amine, content 0.5-3%；

The moisturizer be small molecule alcohol, content 0.5-4%,

The pH value of the aqueous phase monomers is 8-12,

A concentration of 0.05%-1% of the oil phase monomer pyromellitic trimethylsilyl chloride.

7. a kind of preparation method of the graphene oxide composite nano filter membrane with ion selectivity separation, which is characterized in that including；

(1) prepared by Polymer interlayers：Non-woven fabrics supporting layer diaphragm is chosen, polymer feed liquid is homogeneously applied to the nonwoven The surface of cloth supporting layer diaphragm, by adjust the distance between coating head and non-woven fabrics supporting layer diaphragm and polymer feed liquid into Doses adjusts the thickness of non-woven fabrics supporting layer, and passing through gel slot, rinse bath, quenching tank later keeps the non-woven fabrics supporting layer diaphragm clear It washes and shapes, obtain the counterdie of Polymer interlayers；

(2) prepared by the nanoscale separating layer of functionalization：Water phase containing graphene oxide is ultrasonically treated, aqueous phase solution is made The single-side impregnated aqueous phase solution 5S-20min of the counterdie of the Polymer interlayers is purged removal institute by uniformly mixing by air knife The surface water phase of the counterdie of Polymer interlayers is stated, forms one layer of aqueous solution film on the counterdie of the Polymer interlayers, then 5s-1min will be kept in organic phase solution of the counterdie dipping containing pyromellitic trimethylsilyl chloride of Polymer interlayers, is made by baking oven With oil phase interface polymerization reaction setting time occurs for water phase, obtains the graphene oxide composite nanometer filter that there is ion selectivity to detach Film.

8. the graphene oxide composite nano filter membrane according to claim 7 with ion selectivity separation, which is characterized in that The counterdie of the Polymer interlayers of preparation is soaked in deionized water and is stayed with spare.

9. the graphene oxide composite nano filter membrane according to claim 7 with ion selectivity separation, which is characterized in that The temperature of the baking oven is 60-110 DEG C, and optimum temperature is 80 DEG C, and the setting time is 1-5min.