CN106672954A - Method for preparing graphene two-dimensional material through liquid-phase stripping - Google Patents

Abstract

The invention provides a method for preparing a graphene two-dimensional material through liquid-phase stripping. The method comprises the following steps: (1) dispersing graphite into water and/or an organic solvent, maintaining the mixture temperature at 20-80 DEG C, alternatively preforming emulsified cutting and strong ultrasonic, wherein the graphene concentration in the mixture is 0.15-10g/L; (2) separating the product in the step (1) by use of a centrifuging method, taking the separated supernatant as the graphene dispersion liquid, wherein the centrifuging rate is 1000-6000rpm, and the centrifuging time is 5-30min. The commercial graphite with low price is used as the raw material, the organic solvent with good graphene dispersion property is used as the solvent for liquid-phase stripping, the ethanol, the isopropanol and other organic solvents are pollution-free, low in cost and recyclable; by use of the method of combining the emulsified cutting and the strong ultrasonic, the production time is short, the period is 6-20h, the method is simple, and the efficiency is high; the obtained graphene yield is high and can achieve 2%.

Description

A kind of liquid phase peels off the method for preparing grapheme two-dimension material

Technical field

The invention belongs to material with carbon element preparation field, and in particular to a kind of preparation method of Graphene.

Background technology

Graphene is a kind of ultra-thin two-dimensional material, and because it has very high specific surface area, excellent is chemical, thermally-stabilised Property, good electric conductivity and heat conductivility, the property such as excellent mechanical performance so that the material receives extensive research. As people deepen continuously to grapheme material research, in the near future, Graphene will be in catalysis, electronics, energy etc. Various fields obtain business-like application.And in some important fields, such as electronic printing, electrically-conducting paint, lithium ion battery, The substantial amounts of Graphene for being capable of industrialized production will be may require that.For example in lithium ion battery, Graphene can be taken as performance excellent Different, cheap electrode material, and this electrode is produced by slurry coating, this is just to Graphene suspension, stone Black alkene ink or graphene dispersing solution propose demand in large quantities.So, liquid phase stripping prepares the method for Graphene will be become A kind of important technological means.

At present the synthetic method of Graphene mainly has micromechanics stripping, the life of chemical vapor deposition (CVD), crystalline epitaxial Length, oxidation-reduction method etc..The method that wherein micromechanics is peeled off is to peel off the method that graphite obtains Graphene repeatedly by photoresist, The method is simple, and the Graphene quality for preparing is higher, but wastes time and energy, poor repeatability, it is difficult to precise control, is unsuitable for big Scale prepares Graphene.CVD method is the method for being deposited on Graphene in solid film substrate by gas phase reaction under high temperature, The method can prepare high-quality, large-area Graphene, but cost higher at this stage, complicated technique and accurate control Processing conditionss processed constrain its development.Crystal epitaxy method removes Si, so as to obtain in SiC by heating monocrystalline 6H-SiC The Graphene of surface extension, the Graphene prepared by the method is affected very big by SiC substrates, Graphene electrical conductivity it is relatively low or It is difficult to be stripped down from substrate, it is difficult to accomplish scale production.At present most common method is oxide-reduction method, and its is basic Principle is to process graphite by strong strong protonic acid, forms compound between graphite layers, is subsequently adding strong oxidizer and it is aoxidized, Graphene oxide is formed, Graphene can be obtained by reduction, but the method has used had to chemical industry equipment in process of production Severe corrosive, the strong acid of strong oxidizing property and strong oxidizer, there is larger harm to environment, and formed Graphene electronic structure and Perfection of crystal is destroyed by serious, and electrical conductivity has significantly reduction, and (such as accurate is micro- in some fields to limit it Electronic applications) in application and industrialization production.

Compared to additive method, liquid phase peels off the method for Graphene and represents high, production Graphene quality height of the rate of output etc. Advantage, but limited by stripping means and solvent, at present still without it is a kind of can be with the liquid phase stripping means of large-scale production.

The content of the invention

The technical problem to be solved is to overcome the low yield of existing Graphene production method, pollute big, technique The weak points such as complexity, there is provided a kind of low production cost, environmental friendliness, yield are high and be suitable to the liquid phase of industrialized production and peel off system The method of standby Graphene.

The technical scheme for realizing the object of the invention is：

A kind of liquid phase peels off the method for preparing grapheme two-dimension material, including step：

(1) mixture temperature will be kept at 20~80 DEG C in graphite dispersion to water and/or organic solvent, emulsifying cutting with Alternately, an emulsifying clipping time is 10min~6h to strong ultrasound, and once strong ultrasonic time is 10min~2h, alternately 3~ 10 wheels, the wherein rotating speed of emulsifying cutting equipment are 6000~12000rpm, and strong ultrasonic power is 400~950W, and graphite is in mixing Concentration in thing is 0.15~10g/L；

(2) product of step (1) is separated using the method for centrifugation, takes detached upper liquid for graphene dispersion Liquid；Wherein centrifugation rate is 1000~6000rpm, and centrifugation time is 5~30min.

Wherein, the graphite is in the solid phase that crystalline flake graphite, graphite powder, expanded graphite, step (2) centrifugation go out Kind.In raw material, from a cost perspective, preferred graphite powder.

Wherein, the organic solvent be selected from ethanol, isopropanol, nitrogen, nitrogen-dimethylformamide, n-methlpyrrolidone, One or more in dimethyl sulfoxide solvent.It is comprehensive to consider from cost and environmental conservation angle in industrialized production, it is preferably different Propanol.

Further, in step (1), by graphite dispersion to water and organic solvent, the volume ratio of water and organic solvent is 3 ~7：7~3；Graphite concentration in the mixture is 1~3g/L.

It is highly preferred that in step (1), an emulsifying clipping time, once strong ultrasonic time was in 30~40min in 2~3h, Alternately 4~6 take turns.Find in test, ultrasonic time has an impact to thickness；Alternate frequency also has certain impact on Graphene size.

Wherein, in step (1), emulsifying is cut with strong ultrasonic procedure, is controlled mixture temperature by water-bath and is maintained at 20 ~60 DEG C；In 8000~10000rpm, strong ultrasonic power is 600~800W to the rotating speed of emulsifying cutting equipment.The temperature of solution exists Emulsifying is cut and is constantly raised in strong ultrasonic procedure, and the setting of temperature can be controlled by water-bath, be found in test, rate of cutting There is certain impact on the size of Graphene with ultrasonic temperature, in 6000~8000rpm, Graphene yield exists cutting rotating speed 0.5%~1.1%, when rotating speed is cut in 8000~12000rpm, Graphene yield is 1.1%~2.3%.

Wherein, in step (2), the rotating speed of centrifugation is 2000~4000rpm, and centrifugation time is 10~15min.Centrifugation The solid phase isolated is graphite waste, is circulated in preparing for Graphene.

Find in test, centrifugal rotational speed has an impact to thickness：In centrifugal rotational speed in 2000~3000rpm, the stone isolated In 1~50nm, centrifugal rotational speed isolates Graphene thickness in 1~20nm to black alkene thickness in 3000~4000rpm.

Wherein, after step (2), graphene dispersing solution is rotated, lyophilization, obtains solid product, as graphite Alkene powder body.

Freeze-dried Medium can be one or more in water, ethanol, propanol, isopropanol, carbon dioxide.

The Graphene that method of the present invention is prepared.

The present invention has the advantage that compared with prior art：

(1) present invention adopts low-cost commercial graphite for raw material；(2) done using the good organic solvent of graphene dispersion The solvent that liquid phase is peeled off, and these organic solvents such as ethanol, isopropanol etc. is pollution-free, price is low, recoverable；(3) adopt The method in combination with strong ultrasound is cut in emulsifying, and the production time is short, and the cycle is 6~20h, and method is simple, efficiency high；(4) gained The yield of Graphene is high, can reach 2%.(5), without chemical reaction, every time the remaining graphite of production is molten with organic for the method The equal recoverable of agent.

To sum up, liquid phase stripping of the present invention prepares Graphene method, easy with method, environmental friendliness, low cost and other advantages, The Graphene produced has ultra-thin thickness (1~20nm), and have superelevation yield (>2%), the grapheme material can be extensive It is applied to the fields such as electronic printing, electrically-conducting paint, lithium ion battery；Additionally, the method is from cheap raw material, adopt The little, energy consumption of pollution is low, yield is high, process is simple, time-consuming few technique, is suitable to industrialized production.

Description of the drawings

Fig. 1 is the characterization result of the Graphene suspension of embodiment 1, wherein (a) and (b) sweeping for Graphene different multiplying Electron microscope (SEM) is retouched, is (c) transmission electron microscope (TEM) figure with (d).

Fig. 2 peels off X-ray diffraction (XRD) result of Graphene for the liquid phase of embodiment 1.

Fig. 3 peels off the characterization result of Graphene for the liquid phase of embodiment 2, wherein (a) and (b) is Graphene different multiplying Scanning electron microscope (SEM) photograph (SEM), is (c) transmission electron microscope (TEM) figure with (d).

Specific embodiment

Detailed description below is used to illustrate the present invention, but should not be construed as limiting the invention.

In embodiment, emulsifying cuts through the realization of emulsifying cutting machine, and strong ultrasound is realized by biomixer.

In embodiment, if no special instructions, technological means used are this area conventional technique means.

Embodiment 1：

A kind of preparation method of the grapheme two-dimension material that liquid phase is peeled off, its method is implemented by following steps：

(1), graphite powder 5g, water 500mL, isopropanol 500mL are mixed in the beaker that capacity is 2L, by emulsifying cutting machine Cutter head submerges under liquid level, under 40 DEG C of water bath conditions, keeps cutter head rotating speed 8000rpm, and to mixed liquor 2h is cut.

(2), will be put in biomixer through the mixed liquor of step (1), under 40 DEG C of water bath conditions, keep power 800w, to mixed liquor ultrasound 30min.

(3) the emulsifying cutting step and the ultrasound described in step (2) described in implementation steps (1), is replaced to mixed liquor Step, alternately 5 takes turns altogether.

(4), will be centrifuged with rotating speed 3000rpm through the mixed liquor of step (3), 15min be centrifuged, collected upper liquid, As graphene dispersing solution.The graphite waste of precipitation collects to recycle.

The pattern of gained Graphene is characterized, Fig. 1 is as a result seen.SEM is characterized and is confirmed that the Graphene prepared is horizontal Size is that between 0.1~1 μm, (c) and (d) of Fig. 1 is transmission electron microscope (TEM) figure, further demonstrate that the above-mentioned horizontal stroke of Graphene To size and its transparent, ultra-thin characteristic under Electronic Speculum.Fig. 2 is the X-ray diffraction result that liquid phase peels off Graphene.

Between 0.1~1 μm, between 1~20nm, yield is 2% to thickness to the average transverse of graphite ene product.

Embodiment 2

A kind of preparation method of the grapheme two-dimension material that liquid phase is peeled off, its method and step is different substantially with embodiment 1 It is that water feeds intake capacity ratio for 3 with isopropanol:7, the pattern of gained Graphene is characterized, the average transverse of Graphene Between 0.1~3 μm, between 1~20nm, yield is 1% to thickness to size.

Fig. 3 peels off the characterization result of Graphene for the liquid phase of embodiment 2, it was demonstrated that the lateral dimension of Graphene is 0.1~3 μm Between.(c) and (d) of Fig. 3 is transmission electron microscope (TEM) figure, further demonstrate that Graphene above-mentioned lateral dimension and its it is super Thin characteristic.

Embodiment 3

A kind of preparation method of the grapheme two-dimension material that liquid phase is peeled off, its method and step is different substantially with embodiment 1 It is that water feeds intake capacity ratio for 7 with isopropanol:3, the pattern of gained Graphene is characterized, the average transverse of Graphene Between 0.1~3 μm, between 1~20nm, yield is 0.5% to thickness to size.

Embodiment 4

A kind of preparation method of the grapheme two-dimension material that liquid phase is peeled off, its method is implemented by following steps：

(1), graphite powder 5g, water 500mL, isopropanol 500mL are mixed in the beaker that capacity is 2L, by emulsifying cutting machine Cutter head submerges under liquid level, at 40 DEG C, keeps cutter head rotating speed 10000rpm, and to mixed liquor 2h is cut.

(2), will be put in biomixer through the mixed liquor of step (1), at 40 DEG C, power 700W is kept, to mixed Close liquid ultrasound 30min.

(3) the emulsifying cutting step and the ultrasound described in step (2) described in implementation steps (1), is replaced to mixed liquor Step, alternately 5 takes turns altogether.

(4), will be centrifuged with rotating speed 3000rpm through the mixed liquor of step (3), 15min be centrifuged, collected upper liquid, As graphene dispersing solution.

(5), lyophilization obtains solid product, as graphene powder.

The pattern of gained Graphene is characterized, between 0.3~3 μm, thickness is 1 for the average transverse of Graphene Between~20nm, yield is 1.5%.

Embodiment 5

A kind of preparation method of the grapheme two-dimension material that liquid phase is peeled off, its method and step is different substantially with embodiment 1 It is to replace graphite powder to characterize to the pattern of gained Graphene as raw material using expanded graphite, the average transverse chi of Graphene It is very little between 0.3~3 μm, between 1~20nm, yield is 1% to thickness.

Impact of the different parameters of embodiment 1~5 to graphite ene product is shown in Table 1.

Table 1：Embodiment 1-5 technological parameter

Numbering

Cutting speed

Raw material

Ultrasonic power

Water:IPA

The lateral dimension of product

Thickness

Yield

Embodiment 1

8000rpm

Graphite powder

800W

1:1

0.1~1 μm

1~20nm

2%

Embodiment 2

8000rpm

Graphite powder

800W

3:7

0.1~3 μm

1~20nm

1%

Embodiment 3

8000rpm

Graphite powder

800W

7:3

0.1~3 μm

1~20nm

0.5%

Embodiment 4

10000rpm

Graphite powder

700W

1:1

0.3~3 μm

1~20nm

1.5%

Embodiment 5

10000rpm

Expanded graphite

700W

1:1

0.3~3 μm

1~20nm

1%

Comparative example 1

This example provides a kind of preparation method of the grapheme two-dimension material that liquid phase is peeled off, the substantially same embodiment of its method and step 1, except for the difference that, in the mixture of dispersed graphite, graphite inventory is 20g.The pattern of gained Graphene is characterized, shape Looks are basically identical with the products therefrom pattern of embodiment 1, and at 0.1~1 μm, in 1~20nm, yield is 1.3% to thickness to lateral dimension.

Comparative example 2

This example provides a kind of preparation method of the grapheme two-dimension material that liquid phase is peeled off, the substantially same embodiment of its method and step 1, except for the difference that in step (1), the rotating speed of emulsifying machine cutter head is respectively 6000,8000,10000,12000rpm.

Product result of calculation to obtaining shows that rate of cutting has certain impact on the size of Graphene with ultrasonic temperature, Cutting rotating speed in 6000~8000rpm, Graphene yield 0.5%~1.1%, when cutting rotating speed is in 8000~12000rpm When, Graphene yield is 1.1%~2.3%.

Comparative example 3

This example provides a kind of preparation method of the grapheme two-dimension material that liquid phase is peeled off, the substantially same embodiment of its method and step 1, except for the difference that in step (2), will be put in biomixer through the mixed liquor of step (1), at 40 DEG C, keep power 700W, to mixed liquor ultrasound 10,20,30,40,50,60min.

Found by electron microscopic observation, before ultrasonic time is less than 30min, ultrasonic time is longer, and Graphene is thinner, ultrasound Time more than 30min, gained Graphene thickness in~20nm, then extend ultrasonic time thickness change it is unobvious.

Comparative example 4

This example provides a kind of preparation method of the grapheme two-dimension material that liquid phase is peeled off, the substantially same embodiment of its method and step 1, except for the difference that in step (4), the rotating speed of centrifugation is 2000,3000,4000rpm, and centrifugation time is 15min.

Found by electron microscopic observation, in centrifugal rotational speed in 2000~3000rpm, the Graphene thickness isolated 1~ 50nm, centrifugal rotational speed isolates Graphene thickness in 1~20nm in 3000~4000rpm.

The present invention is complicated for existing graphene preparation method step, low yield, existing for gained Graphene grade of poor quality Deficiency, adjust preparation technology by changing liquid phase stripping media, final acquisition can prepare the liquid phase of high-quality graphene and peel off New method.Little, energy consumption is low, yield is high, process is simple, time-consuming few technique using polluting for the method, is suitable to industrialized production, It is significant to the commercial applications of following Graphene.

Example above is only that the specific embodiment to the present invention is described, and not the scope of the present invention is carried out Limit, those skilled in the art can also do on the basis of existing technology numerous modifications and variations, without departing from present invention design On the premise of spirit, various modifications and improvement that this area ordinary skill technical staff makes to technical scheme, Should fall in the protection domain of claims of the present invention determination.

Claims (9)

1. a kind of liquid phase peels off the method for preparing grapheme two-dimension material, it is characterised in that including step：

(1) mixture temperature in graphite dispersion to water and/or organic solvent, will be kept at 20~80 DEG C, emulsifying cutting is super with strong Alternately, an emulsifying clipping time is 10min~6h to sound, and once strong ultrasonic time is 10min~2h, alternately 3~10 is taken turns, Wherein the rotating speed of emulsifying cutting equipment is 6000~12000rpm, and strong ultrasonic power is 400~950W, and graphite is in the mixture Concentration is 0.15~10g/L；

(2) product of step (1) is separated using the method for centrifugation, takes detached upper liquid for graphene dispersing solution；Its Middle centrifugation rate is 1000~6000rpm, and centrifugation time is 5~30min.

2. method according to claim 1, it is characterised in that the graphite be crystalline flake graphite, graphite powder, expanded graphite, One kind in the solid phase that step (2) centrifugation goes out.

3. method according to claim 1, it is characterised in that the organic solvent is selected from ethanol, isopropanol, nitrogen, nitrogen-two One or more in methylformamide, n-methlpyrrolidone, dimethyl sulfoxide solvent.

4. method according to claim 3, it is characterised in that in step (1), by graphite dispersion to water and organic solvent In, the volume ratio of water and organic solvent is 3~7：7~3；Graphite concentration in the mixture is 1~3g/L.

5. method according to claim 1, it is characterised in that in step (1), an emulsifying clipping time in 2~3h, one Secondary strong ultrasonic time alternately 4~6 is taken turns in 30~40min.

6. in method according to claim 1, it is characterised in that in step (1), emulsifying cutting and strong ultrasonic procedure, lead to Cross water-bath control mixture temperature and be maintained at 20~60 DEG C；The rotating speed of emulsifying cutting equipment is strong ultrasonic in 8000~10000rpm Power is 600~800W.

7. method according to claim 1, it is characterised in that in step (2), the rotating speed of centrifugation is 2000~ 4000rpm, centrifugation time is 10~15min；The solid phase that centrifugation goes out is graphite waste, is circulated in preparing for Graphene.

8. the method according to any one of claim 1~7, it is characterised in that after step (2), graphene dispersing solution is entered Row revolving, lyophilization obtains solid product, as graphene powder.

9. the Graphene that the method described in any one of claim 1~8 is prepared.