KR20160025955A - Hydro-foam carbon materials and Manufacture Method thereof - Google Patents

Abstract

The present invention relates to a hydrofoam carbon material and a manufacturing method thereof. Particularly, provided are a hydrofoam carbon material having a solidified form in various shapes and a manufacturing method thereof. The manufacturing method of the present invention utilizes a method comprising: diffusing a carbon material in a powder form in a solvent, and then adding camphor into the same; agitating the mixture at a temperature which can volatilize the solvent and dissolve the camphor; and rapidly solidifying the mixture such that the carbon material is uniformly diffused in the camphor below room temperature. The hydro-foam carbon material manufactured according to the present invention can be applied for various fields which cannot use carbon materials in a powder form, such as air filter, energy storage device, etc.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hydro-foamed carbon material,

The present invention relates to a solidified hydro foamed carbon material using a camphor which is a volatile material and a method of manufacturing the same.

One-dimensional nanostructures such as nanotubes, nanowires, and nanorods exhibit characteristic electrical, physical, and mechanical properties, and various methods for manufacturing such one-dimensional nanostructures have been developed. Hydrocarbon materials (also referred to as hybrid carbon materials) are also produced using carbon materials such as graphene and carbon nanotubes.

The hydro carbon material is known to exhibit characteristic electrical, physical, and mechanical properties, and application to energy conversion or storage devices, magnetic storage devices, biosensors, photocatalysts, and photovoltaic cells has been attempted.

The carbon material is in a powder state, and the carbon materials used as a starting material are in powder form and have a limitation in being applied directly to an air filter or an energy storage element.

Therefore, chemical vapor deposition, electrospinning, laser deposition, and polymer composite methods are mainly used for improving the physical properties of most carbon materials themselves or for producing hydro carbon materials. For example, there is a method of dispersing graphene in a conductive polymer. Since graphene does not have a large amount of polar groups on its surface, it is difficult to effectively disperse graphene in the polymer. In addition, chemical vapor deposition or electrospinning methods are used for carbon nanotubes and carbon nanofibers, but the process is complicated.

An object of the present invention is to provide a hydro foamed carbon material which can be applied to various fields (e.g., an air filter, an energy storage element, etc.) which can not be used in powder form by solidifying a carbon material in powder form, and a method for producing the same.

The present invention has a predetermined form in which a carbon material is dispersed and solidified in a camphor,

The carbon material may be at least one powder selected from the group consisting of graphene, carbon nanotube, fullurene, carbon fiber, carbon black and amorphous carbon. The present invention provides a hydro foamed carbon material.

According to the present invention, it is also possible to include 50 to 99.9% by weight camphor and 0.1 to 50% by weight carbon material, or 100% by weight carbon material.

The carbon material of the present invention may have a square, a heart, a polygonal or a rhombic shape.

The present invention also relates to a method for producing a carbon-containing material,

Adding camphor to the dispersion solution and then heat-treating the mixture to prepare a carbon material dispersed in the camphor; And

Solidifying the carbonaceous material dispersed in the camphor at a temperature lower than room temperature;

The present invention also provides a method for producing the hydro foamed carbon material.

The carbon material-containing dispersion solution may be prepared by adding a carbon material into a solvent and using ultrasonic waves and stirring.

The camphor is preferably used in a weight ratio of 2 to 1000 based on 1 part by weight of the carbon material.

 The solvent may be at least one selected from the group consisting of a solvent having a melting point of camphor or less of 190 degrees. Preferably, the solvent may be at least one selected from the group consisting of dimethylformamide, water, dichloroethylene, ethanol and NMP.

The solidification can be carried out at a temperature of 10 ° C or below by placing a carbon material dispersed in camphor in a mold.

Further, the method of the present invention may further include, after the step of solidifying, removing camphor from the carbon material containing the solidified camphor. In this case, the step of removing the camphor can be carried out under a vacuum at a temperature of room temperature to 50 to 1000 ° C.

The hydro foamed carbon material of the present invention is prepared by dispersing a carbon material in a solvent in a solvent, adding a camphor and then heat-treating the carbon material so that the carbon material is uniformly dispersed in the camphor, . Therefore, the present invention can apply the carbon material in a solidified form to various fields such as an air filter and an energy storage device which can not be used in the conventional powder form. In addition, the present invention can produce complex properties in the final solidified form depending on the carbon material used.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 schematically shows a process diagram of a method for producing a hydro foamed carbon material according to a preferred embodiment of the present invention. FIG.
FIG. 2 illustrates a mold for solidifying a carbon material according to a preferred embodiment of the present invention and a solidified carbon material produced using the mold.
FIG. 3 shows SEM images ((a) and (b)) of graphene used as the starting material of Example 1 and SEM images ((c) and (d)) of foamed graphene after solidification and removal of camphor will be.
4A compares X-ray diffraction spectra of graphene (Grade M5, XGnP Science) as a starting material and foamed graphene (hydrofoam Grade M5) after removal of camphor in Example 1. Fig.
4B is an X-ray diffraction spectrum obtained by enlarging a portion indicated by A 'in the spectrum of FIG. 4A.
FIG. 5 is a graph comparing Raman spectrum results of graphene (Grade M5, XGnP Science) as the starting material and foamed graphene (hydrofoam Grade M5) after removing camphor in Example 1. FIG.

Hereinafter, the present invention will be described in more detail. The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Also, " comprising "as used herein should be interpreted as specifying the presence of particular features, integers, steps, operations, elements and / or components, It does not exclude the presence or addition of an ingredient.

In addition, hydro-foam in the present invention may mean a hybrid foam material which can be mixed with at least one material to exhibit complex physical properties. In addition, in the specification, the foam may refer to a form (for example, a general foam form, a slender sponge shape, etc.) to be formed after the camphor is removed from the final material.

According to a preferred embodiment of the present invention, the carbon material has a predetermined shape in which a carbon material is dispersed and solidified in the camphor, and the carbon material is a carbon nanotube, a carbon nanotube, a fullurene, a carbon fiber ), Carbon black, and amorphous carbon. The present invention also provides a hydro foam carbon material comprising:

According to another preferred embodiment of the present invention, there is provided a method for producing a carbon material, Adding camphor to the dispersion solution and then heat-treating the mixture to prepare a carbon material dispersed in the camphor; And solidifying the carbonaceous material dispersed in the camphor at a temperature lower than room temperature.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a foamed carbon material for producing a powdery carbon material in the form of solid in various shapes and a method for producing the same.

INDUSTRIAL APPLICABILITY The present invention can provide a hydro foam carbon material which can be applied to various fields (e.g., air filters, energy storage devices, etc.) which can not be used in powder form by solidifying the carbon material in powder form.

Particularly, the present invention relates to a method for producing a carbon material, which comprises dispersing a carbon material of a powder in an appropriate solvent, adding a camphor and stirring the mixture at a suitable temperature at which the solvent can volatilize and the camphor can dissolve until the solvent volatilizes, Is dispersed and solidified quickly at room temperature or below.

When the solvent is evaporated, the carbon material is dispersed in the melted camphor, and the camphor can be volatilized in a vacuum or at a high temperature. According to this method, the final manufactured material is preserved to have only some camphor or camphor removed carbon material.

The foamed carbon material may be made of only one kind of carbon material, but it may be provided with a hybrid material having properties more improved than those of a single material by mixing one or more powdered carbon materials. Such a hybrid material can be manufactured using a camphor.

Hereinafter, a hydro foam carbon material and a method for producing the same according to preferred embodiments of the present invention will be described in detail with reference to the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 schematically shows a process diagram of a method for producing a hydro foamed carbon material according to a preferred embodiment of the present invention. FIG. FIG. 2 illustrates a mold for solidifying a carbon material according to a preferred embodiment of the present invention and a solidified carbon material produced using the mold.

As shown in Fig. 1, the present invention first carries out a step of producing a carbonaceous material-containing dispersion solution.

Preferably, the present invention can prepare a carbon material-containing dispersion solution by dispersing a carbon material in a powder state in a solvent using ultrasonic waves.

The carbon material used in the present invention can be hybridized regardless of the kind or number of carbon atoms. For example, the carbon material may be at least one powder selected from the group consisting of graphene, carbon nanotube, fullurene, carbon fiber, carbon black and amorphous carbon. .

In addition, in the present invention, the solvent may be any solvent selected from the group consisting of solvents having a melting point of camphor at 190 degrees or less. As a preferred example, the solvent may be at least one selected from the group consisting of dimethylformamide, water, dichloroethylene, ethanol and NMP, and more preferably, DMF may be used as the solvent.

The condition of using the ultrasonic waves is not particularly limited, and a method well known in the art for producing a dispersion solution may be used.

The amount of the solvent to be used can be suitably used in an amount capable of producing a dispersion solution, and therefore the content thereof is not limited.

Thereafter, the present invention performs a step of adding a camphor to the dispersion solution and then volatilizing the dispersion solution to produce a carbon material dispersed in the camphor.

Further, the present invention can replace the solvent used in the dispersion of the carbon material with the melted camphor while removing the solvent at an appropriate temperature by heat treatment. Therefore, it is preferable that the heat treatment is performed at a temperature at which the camphor can be melted and the solvent used is volatilized. Preferably, the heat treatment is conducted at a temperature of 150 to 190 DEG C using a heating stirrer or a heating mantle.

That is, in the present invention, a camphor is added to the dispersion solution, and heating at a temperature of 150 to 190 ° C is performed to evaporate the solvent in the dispersion solution. In this process, the starting material, the carbon material, is dispersed in the camphor.

The camphor is preferably used in a weight ratio of 2 to 1000 based on 1 part by weight of the carbon material. If the amount of the camphor is less than 2 parts by weight, there is a problem that the carbon powder is not dispersed in the melted camphor, and if it is more than 1000 parts by weight, the camphor is destroyed after removing the camphor.

The camphor used in the present invention is a substance having a strong aromatic odor and is a fat ring-shaped ketone which is white or transparent solid such as beeswax and has a molecular formula of C ₁₀ H ₁₆ O. The camphor is also used in the production of celluloid films due to its properties of making nitrocellulose and solid solution, and is also used as a stimulant, stimulant, analgesic and medicine-related products as a preservative, and also as a mold insecticide Has been found to be used. These camphor are available by purchasing common commercial products.

Then, the present invention can provide a final hydro foamed carbon material by performing the step of solidifying the cambium-dispersed carbon material at room temperature or below and drying the solidified carbon material.

Specifically, the present invention performs a process of changing a solution of a well-dispersed carbon material into a camphor solution at a high temperature, and then solidifying the solution at a low temperature below room temperature.

Accordingly, in the present invention, the resultant product in which the carbon material is dispersed in the camphor is placed in a mold of a certain shape to solidify the cambium, and the camphor is removed to obtain a foamed carbon material in a hydro-state.

As described above, it is preferable that the solidification progresses at room temperature or lower, more preferably, the carbon material dispersed in the camphor is put into a mold and is allowed to proceed at a temperature of 10 ° C or lower. At this time, when the solidification is proceeded at room temperature or above, the solidification speed is slow, so that the carbonaceous material dispersed in the camphor is separated, and carbon foamed material having uniform and various shapes can not be formed.

In addition, the mold may have various shapes such as a square, a heart, a polygon or a rhombus. Such a mold can be appropriately manufactured in a necessary form according to a general method, and the method is not limited.

By this process, the powdery carbon material can be solidified in an appropriate shape, and the camphor used for the solidification can be removed by vacuum or heat treatment. Accordingly, the present invention may further include, after the step of solidifying, removing camphor from the carbon material containing the solidified camphor. Preferably, the step of removing the camphor can be carried out under a vacuum of a temperature of 50 to 1000 ° C.

The final material prepared by the process of the present invention may have the same physical properties as the starting material of the hybrid-foam.

The carbon material produced by the method of the present invention may have a predetermined form of the hydroform in which the carbon material is dispersed and solidified in the camphor, as described above.

Further, in the final hydro foamed carbon material of the present invention, the carbon material content after the process of removing the camphor or the process of removing camphor can be changed.

For example, when there is no process of removing camphor on the basis of the weight of the entire carbon material, it may include 50 to 99.9 wt% of camphor and 0.1 to 50 wt% of carbon material. Further, as described above, after the step of solidifying the carbon material, after the heat treatment and vacuum treatment for removing camphor, the final material contains only 100% by weight of the carbon material, that is, 100% by weight of the carbon material .

Also, according to one embodiment of the present invention, the carbon material may exhibit a butterfly shape or a heart shape as shown in FIG.

In addition, according to another embodiment of the present invention, the carbon material may have a hydro foam form in which only the carbon material is removed after removal of camphor, as shown in (c) and (d) of FIG.

Best Mode for Carrying Out the Invention Hereinafter, the function and effect of the present invention will be described in more detail through specific examples of the present invention. It is to be understood, however, that these embodiments are merely illustrative of the invention and are not intended to limit the scope of the invention.

Example  One.

Grapina Hydro  Production of foam ( graphene hydro - foam )

A solution of 50 mg of Graphene (xGnP Science, Grade M5) in a 50 ml flask was dispersed in DMF (20 ml) using ultrasonic waves.

20 g of camphor was added to the prepared dispersion solution, and the solvent, DMF, was evaporated while stirring at 150 ° C in a heatable stirrer to prepare graphene dispersed in camphor.

Thereafter, graphene dispersed in the camphor at a low temperature close to 0 DEG C was placed in a heart-shaped frame shown in Fig. 2 and solidified for 10 minutes. The solid resultant was then separated from the mold to produce a heart-shaped graphene hydroform.

Example  2.

Grapina / Carbon nanotube composite Hydroformed  Produce( graphene / carbon nanotube  composite hydro - form )

A hydro foamed carbon material was prepared in the same manner as in Example 1, except that two types of carbon materials were used: 50 mg of graphene and 50 mg of multiwall carbon nanotube (MWCNT).

Example  3.

Carbonaceous materials including camphor Hydroformed  Camphor removal technology

The hydroformed carbon material containing the camphor prepared in Example 1 and Example 2 was treated for 12 hours under a vacuum of 60 캜 for 12 hours to produce a carbon dioxide-free carbonized material.

Experimental Example .

SEM photographs, X-ray diffraction spectra and Raman spectra of the hydro foamed carbon material of Example 1 were measured. The results are shown in Figs. 3 to 5, respectively.

That is, FIG. 3 shows SEM images ((a) and (b)) of graphene used as the starting material of Example 1, and SEM images of the foamed graphene after removing camphor after solidification .

3, it can be seen that the carbon material of Example 1 contains graphene having a reduced density compared to the starting material, graphene (GM5).

4A compares X-ray diffraction spectra of graphene (GM5) as a starting material and foamed graphene (hydrofoam GM5) after removal of camphor in Example 1. Fig.

4B is an X-ray diffraction spectrum obtained by enlarging a portion indicated by A 'in the spectrum of FIG. 4A.

From FIGS. 4A and 4B, it was confirmed that the intensity of the 002 peak of Example 1 was lower than that of pure graphene (GM5), which was the starting material, and that the 2θ value shifted slightly to the left. However, the effect was small, since graphene (GM5) is a small layer of graphene platelet.

Figure 5 compares the Raman spectrum results of graphene (GM5) as the starting material and foamed graphene (hydro-foam GM5) after removal of camphor in Example 1.

5, the Raman spectrum of the carbon material of Example 1 is the same as that of the starting material, and thus it has been confirmed that the graphene can be suitably used in a solid state in various fields that can not be used in powder form.

For reference, in Example 2, both starting materials as a carbon composite material were black materials, and the same results as those in Example 1 were obtained.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, those skilled in the art will appreciate that such specific embodiments are merely preferred embodiments and that the scope of the present invention is not limited thereby. something to do. It is therefore intended that the scope of the invention be defined by the claims appended hereto and their equivalents.

Claims (10)

The carbon material is dispersed and solidified in the cambium and has a predetermined shape,
The carbon material may be at least one powder selected from the group consisting of graphene, carbon nanotube, fullurene, carbon fiber, carbon black and amorphous carbon, Wherein the hydroformed carbon material is a carbon material.
The method according to claim 1,
Based on the weight of the total carbon material,
50 to 99.9% by weight camphor and 0.1 to 50% by weight carbon material, or
And 100% by weight of carbon material.
The hydro foam carbon material according to claim 1, having a square, a heart, a polygonal or a rhombic shape.
Preparing a carbon material-containing dispersion solution;
Adding camphor to the dispersion solution and then heat-treating the mixture to prepare a carbon material dispersed in the camphor; And
Solidifying the carbonaceous material dispersed in the camphor at a temperature lower than room temperature;
The method of producing a hydroforming carbon material according to claim 1,
5. The method for producing a hydroformed carbon material according to claim 4, wherein the carbon material-containing dispersion solution is prepared by adding a carbon material into a solvent and using ultrasonic waves and stirring.
5. The method of producing a hydroformed carbon material according to claim 4, wherein the camphor is used in a weight ratio of 2 to 1000 based on 1 part by weight of the carbon material.
6. The method of producing a hydroformed carbon material according to claim 5, wherein the solvent is at least one selected from the group consisting of a solvent having a kneading temperature of 190 degrees or less.
5. The method of producing a hydroformed carbon material according to claim 4, wherein the solidification is carried out at a temperature of 10 DEG C or lower by placing a carbon material dispersed in camphor in a mold.
5. The method of claim 4, wherein after the solidifying step,
And removing the camphor from the carbon material containing the solidified camphor.
10. The method of manufacturing a hydroformed carbon material according to claim 9, wherein the step of removing the camphor proceeds under vacuum at a temperature of room temperature to 50 to 1000 deg.

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