JP2004016909A - Nano-extraction method and nano-extractant - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a new nano-extraction method useful for a drug delivery system or the detection or removal of a trace gredient and selectively and uniformly bonding atoms or molecules to the surface of a carbon nano-substance to extract the same, and a nano-extractant. <P>SOLUTION: A substance to be extracted having a high affinity with the carbon nano-substance is charged in a solvent with a lower affinity to prepare a mixed solution. By allowing the carbon nano-substance to coexist in this mixed solution, the substance to be extracted in the solvent is bonded to the inner or outer surface of the carbon nano-substance to be extracted. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The invention of this application relates to a nano extraction method and a nano extract. More specifically, the invention of this application is useful for a drug delivery system, detection or removal of a trace component, etc., and is a new, capable of selectively and uniformly attaching and extracting atoms and molecules on the surface of a carbon nanomaterial. The present invention relates to a nano extraction method and a nano extract.
[0002]
[Prior art and its problems]
The inventors of the present application have intensively studied the characteristics and uses of carbon nanomaterials such as carbon nanotubes and carbon nanohorn aggregates. Then, a method of adsorbing various substances on the surface of the carbon nano substance or holding the substance inside is proposed.
[0003]
For example, Japanese Patent Application No. 2001-20452 discloses a method of adsorbing a substance to be adsorbed on the surface and inside of a carbon nanohorn aggregate having openings. Further, Japanese Patent Application Nos. 2000-286609 and 2001-052847 disclose a method of including a dopant substance in a single-walled carbon nanotube via a gas phase or a liquid phase.
[0004]
Although these methods are excellent methods that can provide new carbon nanomaterials that can be used for various applications, the driving force of the above-mentioned adsorption or inclusion is the concentration difference between the substance to be adsorbed or the dopant substance, There are disadvantages in that it is difficult to selectively adsorb or include a specific substance, and it is difficult to uniformly adsorb or include a specific substance.
[0005]
Therefore, the invention of this application has been made in view of the circumstances described above, and solves the problems of the prior art, and is useful for a drug delivery system, detection or removal of a trace component, and the like. It is an object of the present invention to provide a new nano-extraction method and a nano-extract that can selectively and uniformly attach and extract atoms and molecules on a surface.
[0006]
[Means for Solving the Problems]
Therefore, the invention of this application provides the following inventions to solve the above problems.
[0007]
That is, first of all, the invention of this application is based on the fact that a substance to be extracted having a high affinity for a carbon nanomaterial is allowed to coexist in a mixed solution charged in a solvent having a lower affinity. The present invention also provides a nano extraction method characterized in that a substance to be extracted in a solvent is attached to an inner surface or an outer surface of a carbon nano material.
[0008]
Secondly, the invention of the present application is directed to the third aspect of the present invention, wherein the carbon nanomaterial is a single-walled carbon nanotube, a multi-walled carbon nanotube, or an aggregate of carbon nanohorns. Provides a nano extraction method, wherein the substance to be extracted is an atom or a molecule having a size on the order of nanometers.
[0009]
Furthermore, the invention of this application fourthly provides a nano-extract wherein the substance to be extracted is attached to the inner surface or outer surface of the carbon nano-material by any one of the methods described above. I do.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
The invention of this application has the features as described above, and embodiments thereof will be described below.
[0011]
First, the nano-extraction method provided by the invention of the present application is to allow a carbon nano-substance to coexist in a mixed solution in which a substance to be extracted having a high affinity for a carbon nano-substance is charged into a solvent having a lower affinity. It is characterized in that a substance to be extracted in a solvent is attached to an inner surface or an outer surface of a carbon nano material and is extracted.
[0012]
In the invention of the present application, the carbon nanomaterials include single-walled carbon nanotubes, multi-walled carbon nanotubes, aggregates of carbon nanohorns and other various nanometer-sized carbonaceous materials, and those in which pores are provided in these materials. Can be used alone or as a mixture.
[0013]
There is no particular limitation on the type of the substance to be extracted extracted into the carbon nanomaterial and the solvent into which the substance is extracted, and the affinity between the substance to be extracted and the carbon nanomaterial and the solvent is not limited. , Various combinations can be made. That is, in the relationship between the carbon nano substance, the substance to be extracted, and the solvent, it is sufficient that the relation of (affinity between the substance to be extracted and the carbon nano substance)> (affinity between the substance to be extracted and the solvent) is established.
[0014]
As described above, “extraction” in the invention of this application is slightly different from extraction in a general sense, and the difference between the affinity of the carbon nanomaterial, the material to be extracted, and the solvent is used as a driving force to extract the material to be extracted. It is selectively attracted and attached to the inner surface or outer surface of the carbon nanomaterial. That is, the substance to be extracted is extracted into the carbon nanomaterial. Then, for example, if the difference in affinity between these substances is large, or if the carbon nanomaterial, the substance to be extracted and the solvent are selected so that the difference in affinity becomes large, the substance to be adsorbed depends on the carbon nanomaterial. It will be easier to extract.
[0015]
More specifically, for example, the carbon nanomaterial has high affinity for benzene and hexane, but does not have high affinity for ethanol, methanol, or water. From these facts, for example, benzene in water can be selectively extracted into carbon nanomaterials. In general, C ₆₀ was dissolved in water is the conventional method is as impossible to extract or separated by non-heating means. However, C _60, in the affinity between water and carbon nano material, (C ₆₀ and affinity of the carbon nanomaterials)> since there is a relation of (C ₆₀ and affinity for water), the invention of this application according to the method, only the coexistence of carbon nanomaterials in water melted in C ₆₀ in can be deposited C ₆₀ on the surface of the carbon nanomaterials, it is possible to extract the C ₆₀ to the carbon nanomaterials.
[0016]
The nano-extraction method of the invention of this application does not depend on the concentration difference as in the conventional adsorption and inclusion of carbon nanomaterials. This extraction is characterized in that it is performed in a very uniform state on the surface of the carbon nanomaterial as compared with the state of adsorption or inclusion of the substance to be adsorbed or the dopant substance in the conventional carbon nanomaterial.
[0017]
In the invention of this application, the type of the substance to be extracted is not particularly limited as described above, but the size of the atoms or molecules of the substance to be extracted can be adjusted according to the carbon nanomaterial used. For example, when a single-walled carbon nanotube is used as a carbon nanomaterial, an atom or a spherical molecule smaller than the inner diameter of the tube (generally, several tens nm or less) is used as the material to be extracted. It can be contained by being attached to the inner surface of the single-walled carbon nanotube. When the substance to be adsorbed is a polymer, its length is not particularly limited as long as its diameter is smaller than the inner diameter of the tube, and can be included in the single-walled carbon nanotube by attaching it to the inner surface. On the other hand, when the substance to be extracted is a large molecule, its size is not limited, and is attached to the outer surface of the carbon nanomaterial. It goes without saying that the same applies to the case where, for example, a carbon nanohorn aggregate having openings is used as the carbon nanomaterial.
[0018]
As described above, in the nano extraction method of the present invention, when the substance to be extracted is an atom or a molecule having a size on the order of nanometers, the extraction can be realized, which is particularly characteristic.
[0019]
The nanoextract of the invention of this application is obtained by the above method, and the substance to be extracted is uniformly attached to the inner surface or outer surface of the carbon nanomaterial. On the other hand, this nano-extract is collected or desorbed from the carbon nano-substance by immersing it in an appropriate solvent, applying an appropriate heat treatment, or controlling the atmosphere. Can be. Therefore, the nanoextract of the invention of this application has the potential to be a very useful material for drug delivery systems, detection or removal of trace components, and the like.
[0020]
Hereinafter, embodiments will be described with reference to the accompanying drawings, and embodiments of the present invention will be described in further detail.
[0021]
【Example】
(Example 1)
After stirred into the _{C 60} to 30mg of ethanol 30 cc, and allowed to stand for 3 days to put the carbon nanohorn aggregates (NH). The carbon nanohorn aggregate was collected and observed with a transmission electron microscope (TEM), and the image is shown in FIG. From the figure, take a look at that C ₆₀ is uniformly adhered to cover the external surface of the carbon nanohorn aggregate as a black point, it was confirmed that C _{60 /} NH nano extraction member is obtained .
(Example 2)
After stirring 1 mg of Ni phthalocyanine (NiPc) in 30 cc of ethanol, carbon nanohorn aggregates (NH) or carbon nanotubes (NT) were added and allowed to stand for 3 days. The carbon nanohorn aggregate and the carbon nanotubes were collected and observed with a TEM. The results are shown in FIGS. 2 and 3, respectively.
[0022]
In FIG. 2, it can be seen that NiPc is uniformly attached to the surface of the carbon nanohorn aggregate as a black point. FIG. 3 also shows that NiPc is innumerably attached to the surface of the carbon nanotube as particles. Thus, it was confirmed that the NiPc / NH extract and the NiPc / NT extract were obtained.
(Example 3)
The C ₆₀ / NH extract obtained in Example 1 was heated in vacuum at 400 ° C. for 30 minutes. When this product was observed by TEM, the C ₆₀ having adhered to cover the external surface of the carbon nanohorn aggregate is disappeared sublimed was confirmed. Further, as shown in FIG. 4, the tip inside the carbon nanohorn, a diameter _{0.3~0.5nm, C 60} smaller fullerenes has been found that are nano extracted. For example, a fullerene is observed as a round shape inside the tip of the carbon nanohorn surrounded by a thick line in the figure. Therefore, the C ₆₀ was found to be mixed in small amount as an impurity a smaller lower order fullerene carbon atoms.
[0023]
Of course, the present invention is not limited to the above-described example, and it goes without saying that various aspects are possible in detail.
[0024]
【The invention's effect】
As described in detail above, the present invention is useful for a drug delivery system, detection or removal of a trace component, and the like, and is capable of selectively and uniformly attaching and extracting atoms and molecules on the surface of a carbon nanomaterial. Nano extraction methods and nano extracts are provided.
[Brief description of the drawings]
1 is a illustrated FIG TEM images of the carbon nanohorn aggregate obtained by extracting C _60.
FIG. 2 is a diagram illustrating a TEM image of a carbon nanohorn aggregate from which NiPc clusters have been extracted.
FIG. 3 is a diagram illustrating a TEM image of a carbon nanotube from which NiPc clusters have been extracted.
FIG. 4 is a diagram illustrating a TEM image of a carbon nanohorn aggregate from which low-order fullerenes are extracted.

Claims (4)

The substance to be extracted in the solvent is made to coexist with the inner surface of the carbon nano substance by causing the substance to be extracted in the solvent to coexist in a mixed solution in which the substance to be extracted having a high affinity for the carbon nano substance is put into a solvent having a lower affinity. Alternatively, a nano-extraction method characterized by being attached to an outer surface. The method according to claim 1, wherein the carbon nanomaterial is a single-walled carbon nanotube, a multi-walled carbon nanotube, or an aggregate of carbon nanohorns. 3. The method according to claim 1, wherein the substance to be extracted is an atom or a molecule having a size on the order of nanometers. 4. A nanoextract, wherein a substance to be extracted is attached to an inner surface or an outer surface of a carbon nanomaterial by the method according to any one of claims 1 to 3.

Images