JPH0952707A - Production of thin film - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve uniformity and binding property of a compd. at the time of forming a layer of a desired compd. on a thin film. SOLUTION: After applying the compd. having a functional group capable of reacting with the unsatd. bond, on a carbon film such as diamond-like carbon thin film having the unsatd. bond formed on a base material by an ECR plasma CVD process, etc., the compd. is irradiated with UV rays to bring both into reaction and to conbind the film and the compd.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a method for forming a layer of a desired compound on a carbon film, and more specifically, a compound having a functional group capable of reacting with the carbon film containing an unsaturated bond. And a method for forming a thin film by bonding the above.

[0002]

2. Description of the Related Art Various techniques have been known for a long time for forming a thin film on a substrate, but as a sophisticated thin film forming method in the electronics industry, precision machinery industry, information industry, etc., so-called vacuum is now used. The thin film forming method is the mainstream. In this method, particles of the raw material compound of the target thin film are generated in vacuum and deposited on a substrate to form a thin film.Vacuum deposition, sputtering, CVD, ion plating, etc. And many of these improved methods are known.

The vacuum thin film forming method is used in a wide variety of fields. For example, in the field of magnetic recording media, a so-called metal thin film type magnetic recording medium in which a metal is deposited on a support by vacuum deposition or the like. A method of forming a thin film made of diamond-like carbon as a protective layer has been attracting attention. The diamond-like carbon thin film is an amorphous carbon film, and is considered to have a structure in which graphite bonds and diamond bonds are mixed. Then, after forming the diamond-like carbon layer, an appropriate lubricant is applied on the layer to form a lubricating layer, and a fluorine-based lubricant is widely used as the lubricant today.

[0004]

However, conventionally, in order to improve durability, studies have been conducted to produce diamond-like carbon that is closer to diamond, and the bonding mode of such a diamond-like carbon thin film is Most of them are carbon-carbon single bonds. On the other hand, when a fluorine-based lubricant is applied to the diamond-like carbon protective layer, it is difficult to apply it sufficiently evenly from the viewpoint of application technology, and if the lubricating layer is applied unevenly, the friction coefficient becomes larger. I have a problem. In addition, the lubricant layer is only physically applied on the protective layer, and the chemical bond is very weak.Therefore, the lubricant is released during repeated use, and the released lubricant is visible on the head. There is a problem that it is clogged, the output is lowered, or jitter is generated. As described above, when further forming a layer of a desired compound on a thin film, uniform coating is difficult to perform simply and moreover, the formed layer is not sufficiently strong in many cases. Further improvements are desired.

[0005]

Means for Solving the Problems As a result of intensive studies conducted by the present inventors in view of the above-mentioned situation, the carbon film having an unsaturated bond and a compound having a functional group capable of reacting with the unsaturated bond were exposed to ultraviolet light. The inventors have found that a strong and uniform thin film can be formed by reacting them to chemically bond them, and completed the present invention.

That is, according to the present invention, a carbon film having an unsaturated bond is coated with a compound having a functional group capable of reacting with the unsaturated bond, and then the coated surface is irradiated with ultraviolet light to remove the compound. A method for manufacturing a thin film, which comprises forming a thin film by bonding to the carbon film.

The carbon film having an unsaturated bond used in the present invention is preferably made of diamond-like carbon having an unsaturated bond. The proportion of unsaturated bonds is sp ³
It is desirable that the ratio of bonds to sp ² bonds is sp ³ / sp ² <9. When the number of unsaturated bonds is small, the reaction with the compound having a functional group becomes insufficient. In the present invention, the carbon film is usually formed on some kind of base material (support), but its type is not limited.

The carbon film having such an unsaturated bond can be produced, for example, by using a compound containing many unsaturated bonds and aromatic rings as a carbon source in the ECR plasma CVD method, and benzene is particularly preferable as the carbon source. .

The present invention is a method for forming a thin film by bonding a desired compound on a carbon film having an unsaturated bond as described above, and a compound having a functional group capable of bonding with the unsaturated bond of the carbon film. However, any functional group may be used as long as it can bond with an unsaturated bond.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION The method of the present invention is particularly suitable for forming a lubricating layer on a protective layer formed of a diamond-like carbon thin film formed on a magnetic layer. That is,
On the magnetic layer formed on the support, a diamond-like carbon thin film having an unsaturated bond is formed, and then a lubricant comprising a compound having a fluorinated alkyl group is applied onto the diamond-like carbon thin film, and the application A method of manufacturing a magnetic recording medium, comprising the step of forming a lubricating layer on the diamond-like carbon thin film by irradiating the surface with ultraviolet light to combine the diamond-like carbon thin film and the lubricant. can do.

As the lubricant used here, one made of a compound having a fluorinated alkyl group is particularly preferable, and a lubricant made of perfluoropolyether is particularly preferable. As a perfluoropolyether lubricant,
Those having a molecular weight of 2000 to 5000 are suitable, and for example, "FOMBLI
NZ DIAC "[carboxyl group modified, Montecatini
Commercially available under the trade name of "FOMBLIN Z DOL" (alcohol-modified, Montecatini Co.). These lubricants may be used with suitable fluorine-based inert solvents (eg, perfluorocarbons such as “Fluorinert” manufactured by Sumitomo 3M Ltd., perfluoropolyethers such as “Galden” manufactured by Montecatini Co., Ltd.), and alcohol solvents. It is recommended to apply it as a solution of about 0.001 to 10% by weight dissolved in a solvent. Further, the lubricant can be applied on the protective layer as it is or after being diluted with an appropriate solvent, by spraying with an ultrasonic atomizer equipped with an ultrasonic oscillator. This method allows more uniform application of the lubricant.

The reaction between the diamond-like carbon thin film formed on the magnetic layer of the magnetic recording medium and the perfluoropolyether lubricant will be described. First, a magnetic layer is formed on an appropriate support, and a diamond-like carbon thin film having an unsaturated bond is formed thereon. Such a diamond-like carbon thin film is produced by ECR plasma CVD.
In the method, it can be easily obtained by using benzene as a carbon source. The ratio of unsaturated bonds in the diamond-like carbon thin film is preferably sp ³ / sp ² <9, particularly 0.25 <sp ³ / sp ² <4.5 in terms of the ratio of sp ³ bonds to sp ² bonds. The thickness of the diamond-like carbon thin film is not limited, but is preferably 50 to 300 Å.

Then, the perfluoropolyether type lubricant is applied on the diamond-like carbon thin film by the above-mentioned method. Then, the coated surface is irradiated with ultraviolet light. As ultraviolet light, near-ultraviolet light (wavelength 400-300 nm),
Far ultraviolet light (wavelength 300 to 200 nm), vacuum ultraviolet light (wavelength 200
˜1 nm), but it is preferable to irradiate all ultraviolet light having a wavelength of 400 nm or less. The irradiation time of ultraviolet light differs depending on the type of diamond-like carbon thin film and the lubricant. The progress of the reaction due to ultraviolet light can be confirmed by Raman spectrum, and the fact that the lubricant and diamond-like carbon are bound can be confirmed by the decrease of the slope of the Raman spectrum baseline (fluorescence line).
It is desirable to carry out such a reaction in a vacuum chamber. Therefore, each step of forming a magnetic layer, forming a diamond-like carbon protective layer, spraying a fluorine-based lubricant, and forming a lubricating layer by irradiating the protective layer and the lubricant with ultraviolet light is continuously performed in a vacuum. You can

[0014]

Embodiments of the present invention will be described below. However, the invention is not limited to these examples.

Example 1 On a magnetic layer of a PET film (thickness: 6 μm) having a magnetic layer (cobalt, thickness: 2000 Å) formed of diamond-like carbon having an unsaturated bond by ECR microwave plasma CVD method. A protective layer (thickness 100Å) was formed. Here, gasified benzene was used as the raw material. Perfluoropolyether (FOMBLINZ DIAC, manufactured by Montecatini Co., Ltd.), which is a lubricant, was applied on this diamond-like carbon thin film in a concentration of 0.05% by weight with a fluorine-based inert solvent (Fluorinert FC-77, manufactured by Sumitomo 3M Co., Ltd.). The coating surface was irradiated with ultraviolet light having a wavelength of 400 nm or less while coating the diluted solution. The running speed of the film is 3 m / min, and the bonding between the lubricant and the diamond-like carbon is sufficiently advanced by the ultraviolet light at this speed. Then, it was washed with Fluorinert FC-77.

Example 2 In Example 1, “FOMBLIN Z DEAL” (manufactured by Montecatini Co., Ltd.) was used as the perfluoropolyether, and the diamond-like carbon thin film and the lubricant were reacted in the same manner as in Example 1. Let

Example 3 In Example 1, “FOMBLIN Z DOL” (manufactured by Montecatini Co., Ltd.) was used as the perfluoropolyether, and the diamond-like carbon thin film and the lubricant were reacted in the same manner as in Example 1. Let

Example 4 In Example 1, “FOMBLIN AM 2001” (manufactured by Montecatini Co., Ltd.) was used as the perfluoropolyether, and the diamond-like carbon thin film and the lubricant were reacted in the same manner as in Example 1. Let

Example 5 In Example 1, “FOMBLIN Z DISOC” (manufactured by Montecatini Co.) was used as the perfluoropolyether, and the diamond-like carbon thin film and the lubricant were reacted in the same manner as in Example 1. Let

Example 6 In Example 1, “Demnum SH” (manufactured by Daikin Co., Ltd.) was used as the perfluoropolyether, and the diamond-like carbon thin film and the lubricant were reacted in the same manner as in Example 1. It was

Example 7 In Example 1, "Demnum SP" (manufactured by Daikin Co., Ltd.) was used as the perfluoropolyether, and the diamond-like carbon thin film and the lubricant were reacted in the same manner as in Example 1. It was

Comparative Example 1 In Example 1, after applying the perfluoropolyether, washing was performed without irradiating with ultraviolet light.

Comparative Example 2 In Example 2, after applying the perfluoropolyether, washing was performed without irradiating with ultraviolet light.

<Performance Evaluation> After winding the films obtained in Examples 1 to 7 and Comparative Examples 1 and 2 on which the magnetic layer, the diamond-like carbon protective layer and the fluorine-based lubricating layer were formed, the conventional method was used. Thus, a backcoat layer of carbon black and a binder resin (vinyl chloride resin and urethane prepolymer) having a thickness of 5000 Å was formed on the surface of the base film opposite to the magnetic layer. The obtained film was cut to a width of 8 mm and loaded in a cassette case to obtain an 8 mm cassette tape. Set this 8mm cassette tape on a measuring system that is a remodeled commercial 8mm VTR,
Jitter (ns) was measured with a jitter meter, and the change with time of the reproduction output was measured by the following method.
Table 1 shows the results. <Change in playback output over time>
The measurement was performed by three patterns of C. (A) A test video signal was recorded, rewound, and the change with time in output when reproduced was measured. After (B) and (A), the tape was continuously rewound, the head was cleaned, and the change with time in the output during reproduction was measured. After (C) and (B), the tape is continuously rewound, head cleaning is performed, reproduction is performed, and the output (C ₁ ) changes with time when reproduction is temporarily stopped in the middle and then head cleaning is performed again. The change with time of the output (C ₂ ) when the rest was continuously reproduced from the position was measured.

[0025]

[Table 1]

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Katsumi Sasaki 2606 Akabane, Kai-cho, Haga-gun, Tochigi Kao Institute of Stock Research

Claims (5)

[Claims] 1. A carbon film having an unsaturated bond is coated with a compound having a functional group capable of reacting with the unsaturated bond, and then the coated surface is irradiated with ultraviolet light so that the compound is treated with the carbon film. A method for producing a thin film, which comprises forming a thin film by bonding to. 2. The manufacturing method according to claim 1, wherein the carbon film is made of diamond-like carbon having an unsaturated bond. 3. The method for producing a thin film according to claim 1, wherein the compound having a functional group capable of reacting with the unsaturated bond is a compound having a fluorinated alkyl group. 4. The method for producing a thin film according to claim 1, wherein the wavelength of the ultraviolet light is 400 nm or less. 5. A diamond-like carbon thin film having an unsaturated bond is formed on a magnetic layer formed on a support, and a lubricant comprising a compound having a fluorinated alkyl group is then formed on the diamond-like carbon thin film. Apply
A method of manufacturing a magnetic recording medium, comprising the step of irradiating the coated surface with ultraviolet light to combine the diamond-like carbon thin film and the lubricant to form a lubricating layer on the diamond-like carbon thin film. .