JP2915812B2 - Transfer adhesion method of fine particle film - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for transferring and attaching a fine particle film to a solid secondary substrate. More specifically, the present invention relates to a method for attaching and transferring a fine particle film to a solid substrate, which is useful as an electronic device, a sensor, a molecular element, a biocompatible material, or the like as various functional materials.

[0002]

2. Description of the Related Art Heretofore, the inventors of the present invention have been studying formation of a fine particle film for advanced development of next-generation functional materials. In this process, a method of forming a two-dimensional fine particle film having a film-like structure by aggregating and arranging fine particles of nanometer order or micrometer order on a liquid surface or a solid substrate has been established technically. Also, studies on three-dimensional formation of the fine particle film by forming a multilayer structure have been advanced.

However, despite such remarkable technical progress, it is necessary to adhere and transfer the fine particle film formed on the liquid surface to a solid secondary substrate. In fact, it was a fact that satisfactory means had not been established. That is,
When a fine particle film spread on a liquid surface is transferred and adhered to a solid secondary substrate, the surface of the solid secondary substrate must have adhesiveness or adhesiveness to the transferred fine particle film. . If the particles of the fine particle film are large, unevenness on the surface of the solid secondary substrate is not a problem. Property, and the particle film can be transferred and adhered. However, protein particles whose particle constituting the fine particle membrane is small (1 nm to 100 nm)
When transferring and adhering fine particles such as particles, unevenness of the surface of the solid secondary substrate becomes a serious problem. It was difficult in practice.

The present invention has been made to solve the above-mentioned drawbacks of the prior art, and has as its object to provide a new method for transferring and attaching a fine particle film.

[0005]

According to the present invention, there is provided a polymer material developed on a liquid surface.
A method for attaching and transferring a fine particle film formed from a dispersion liquid of fine particles comprising a carbon film on a solid secondary substrate or a graphite surface , wherein the carbon film on the solid secondary substrate is also
Alternatively, the present invention provides a method for transferring and attaching a fine particle film, wherein the fine particle film is attached by activating a graphite surface by ion sputtering .

Further, the present invention relates to a solid secondary substrate.
There is also provided a method for transferring and attaching a fine particle film, wherein a hydrophobic surface (hydrophobic film) is generated by subjecting Si or a conductive surface or a hydrophilic surface to a hydrophobic treatment to transfer and attach.

[0007]

In the present invention, the means as described above,
KazuSatoshi a carbon film or <br/> surface of the graphite of the solid secondary substrate is activated to produce an active surface by performing ion-sputtering process in a vacuum, to transfer attaching fine particle film on the active surface Can be.

Further, a hydrophobic surface (hydrophobic film) of the solid secondary substrate is generated by hydrophobizing the surface of the solid secondary substrate, and a fine particle film is transferred and adhered on the hydrophobic surface (hydrophobic film) by hydrophobic bonding. can do.

[0009]

Of course, in the present invention, the type of the fine particles is not particularly limited, and may be an organic polymer, a polymer substance such as a natural or synthetic protein, ceramics, a metal, or a composite thereof. The type of the adhesion transfer is selected depending on the type. Also, the size of the fine particles is
Fine particles of nanometer or micrometer can be used. The film of these fine particles to be subjected to adhesion transfer may have a structure in which the fine particles are aggregated two-dimensionally, or a three-dimensional integrated structure thereof.

Various solid secondary substrates are employed. For example, it may be a surface of a semiconductor such as silicon, metal, graphite, carbon film, glass, other ceramics, organic polymer, wood, fiber, or the like. For the fine particle film itself, a fine particle dispersion liquid is spread on the surface of mercury, water, or other organic solvent, and the dispersion medium is removed by evaporation, suction, etc., whereby the fine particles are two-dimensionally aggregated and arranged, or The crystallized structures and their three-dimensional structures can be appropriately targeted.

[0012]

The present invention will be described below in more detail with reference to examples. Of course, the present invention is not limited by the following examples. Example 1 FIG. 1 shows polystyrene fine particles (average particle size of about 4) transferred and attached to a carbon film subjected to an ion sputtering process.
0 nm) is a photograph showing an image of the transmission electron microscope of the film. FIG. 2 is a photograph showing a transmission electron microscope image of a film of ferritin protein particles (average particle diameter: 20 nm) transferred and attached to a carbon film subjected to an ion sputtering process.

In each case, first, a thin carbon film is formed by vacuum-depositing carbon on the surface of freshly cleaved mica, and the carbon film is peeled off from the mica surface on the surface of distilled water to form a copper mesh. Scoop up on The surface of the scooped carbon film is subjected to ion sputtering with Ar (argon) ions according to a conventional method. Immediately after the ion sputtering process,
The ultrafine particle thin film is transferred and adhered to the carbon film as the solid secondary substrate by pressing the carbon film from above on the fine particle film spread on the liquid surface of mercury, water, or an organic solvent for several seconds to several minutes. Of course, it is also possible to transfer and adhere to a solid secondary substrate such as Si or graphite instead of the carbon film. Example 2 FIG. 3 shows a scanning electron microscope image of a protein particle film transferred and attached by hydrophobic bonding to a Si substrate subjected to a hydrophobic treatment.

That is, a Si substrate as a solid secondary substrate is immersed in a 1-20% HF aqueous solution, and a thin oxide film is peeled off to perform a hydrophobic treatment. The hydrophobic surface and the protein particle film are hydrophobically bonded by pressing the Si surface exposed by the hydrophobic treatment, that is, the hydrophobic surface of the Si substrate onto the ferritin protein particle film developed on the water surface for several seconds to several minutes. Transfer and adhere. Example 3 FIG. 4 shows a scanning electron microscope image of a ferritin protein particle film transferred and attached by hydrophobic bonding onto a polypyrrole film electropolymerized on ITO glass by a hydrophobic treatment.

That is, first, ITO glass, which is an electrode for forming a polypyrrole film, and platinum, which is a reference electrode, are immersed in a dilute aqueous solution of pyrrole, and a DC voltage of 1.2 V or less is applied to these electrodes to perform electropolymerization. Do. By this electric field polymerization, a polypyrrole film, which is a hydrophobic film, is formed on the ITO glass. The thickness of the formed polypyrrole is adjusted by the concentration of the pyrrole aqueous solution and the application time of the DC voltage.
After the polypyrrole film is sufficiently dried, it is pressed onto the ferritin protein particle film spread on the water surface from above for several seconds to several minutes to make it hydrophobically bond and transfer and adhere. As the electrode for forming the polypyrrole film (hydrophobic film), not only an ITO film but also a conductive material such as gold or platinum can be used. Example 4 FIG. 5 shows a scanning electron microscope image of a polystyrene particle film transferred and attached to a hydrophobic surface of a casein film attached to a glass surface by a hydrophobic treatment.

That is, first, casein, which is a polymer having both a hydrophilic group and a hydrophobic group in the same chain and has surface chemistry, is spread on the water surface, and the spread casein film is coated on the surface of a hydrophilic solid (glass). The hydrophobic surface of the casein membrane is exposed by attaching it to the surface) by a lifting method. The hydrophobic surface of the casein film on the glass surface is pressed onto the polystyrene particle film spread on the water surface from above for several seconds to several minutes to form a hydrophobic bond, thereby transferring and attaching the polystyrene particle film.

[0017]

According to the present invention, as described in detail above, smooth and uniform transfer adhesion of the fine particle film to the solid substrate is enabled without being limited to the above example.

[Brief description of the drawings]

FIG. 1 is a photograph replacing a drawing of a transmission electron microscope image (TEM image: acceleration voltage 100 kV, direct observation) of a polystyrene particle film transferred and adhered to a carbon film subjected to an ion sputtering process.

FIG. 2 is a photograph replacing a drawing of a transmission electron microscope image (TEM image: acceleration voltage of 100 kV, uranyl acetate staining) of a protein particle film transferred and adhered to a carbon film subjected to an ion sputtering process.

FIG. 3 is a scanning electron microscope image (S) of a protein particle film transferred and attached by hydrophobic bonding to a Si substrate subjected to a hydrophobic treatment.
(EM image: acceleration voltage of 1 kV, direct observation) is a photograph replacing the drawing.

FIG. 4 is a scanning electron microscope image (SEM image: acceleration voltage of 1) of a protein particle film transferred and attached by hydrophobic bonding to a polypyrrole film electropolymerized on ITO glass by a hydrophobic treatment.
(kV, direct observation).

FIG. 5 is a photograph replacing a drawing of a scanning electron microscope image (SEM image: acceleration voltage of 1 kV, direct observation) of a polystyrene particle film transferred and adhered to a hydrophobic surface of a glass film adhered to a glass surface by a hydrophobic treatment. It is.

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁶ Identification symbol FI B05D 3/10 B05D 3/10 Z B32B 31/22 B32B 31/22 H01M 4/96 H01M 4/96 (56) References JP JP-A-5-307179 (JP, A) JP-A-2-71873 (JP, A) JP-A-63-242373 (JP, A) JP-A-63-226290 (JP, A) JP-A-2-26669 (JP, A) JP-A-2-57959 (JP, A) JP-A-59-224067 (JP, A) JP-A-4-162362 (JP, A) JP-A-2-57959 (JP, A) 7-73898 (JP, A) JP 2-14854 (JP, B2) JP 555534 (JP, B2) JP 62-60476 (JP, B2) (58) Fields surveyed (Int. Cl ^6, DB name) B05D 1 / 20,3 / 10 B01J 19/00 B01J 19/08 H01M 4/96 C03C 17/28 -. 17/42 H01G 1/005 C25B 11 / 02,11 / 04 B32B 31/22

Claims (4)

(57) [Claims] 1. A method for producing a fine particle film from a dispersion liquid of fine particles of a polymer material spread on a liquid surface and forming the fine particle film on a solid secondary substrate .
A method of attaching transferred to the carbon film or a graphite surface, the solid secondary substrate carbon film or Gras
A method for transferring and attaching a fine particle film, wherein the fine particle film is attached by activating the surface of the phyt by ion sputtering . Wherein the fine particle film was produced from the dispersion of <br/> fine particles of expanded polymer material on the liquid surface to a method of attaching the transfer to the solid secondary substrate, the solid secondary substrate Si Immerse the surface in a 1-20% HF aqueous solution and strip off the thin oxide film
To produce a hydrophobic surface by hydrophobic treatment I, then the liquid surface
A method of transferring and attaching a fine particle film on a water surface as described above . 3. A fine particle film was produced from the dispersion of <br/> fine particles of expanded polymer material on the liquid surface to a method of attaching the transfer to the solid secondary substrate, a conductive solid secondary substrate depending on thereby generating a polypyrrole field polymerized film sex <br/> surface
To produce a hydrophobic surface, and then to a liquid surface
A method of transferring and attaching a fine particle film, wherein the fine particle film is attached to all the water surfaces . 4. A method for adhering and transferring a fine particle film formed from a dispersion liquid of fine particles made of a developed polymer substance on a liquid surface to a solid secondary substrate, wherein the hydrophilic film has a hydrophilic property. sex
A casein membrane is attached to the surface, and then the casein membrane
A method of transferring and attaching a fine particle film on a water surface as a liquid surface .