JP2020180098A - Film for skin application and transfer sheet - Google Patents

Abstract

To provide a film for skin application capable of suppressing adverse effects by sebum, and a transfer sheet.SOLUTION: There is provided a film 10 for skin application having a first surface 10F stuck to the skin and a second surface 10R opposite to the first surface 10F. The first surface 10F has incompatibility with sebum. The film 10 for skin application is a laminate comprising a surface layer 12 constituting the first surface 10F and a thin film layer 11 constituting the second surface 10R. The surface layer 12 is formed of a water-soluble material.SELECTED DRAWING: Figure 1

Description

The present invention relates to a skin-sticking film and a transfer sheet for sticking a skin-sticking film to the skin.

Since an extremely thin film having a thickness of about several nm to several μm has adhesiveness to the surface of a living organ, it has been attempted to attach the film to an organ, skin or the like for use. For example, Non-Patent Document 1 reports that the film can be used as a wound dressing. It has also been proposed to attach the above film to the skin to assist in skin care and make-up. For example, Patent Document 1 proposes a beauty method in which a cosmetic is applied over a film after the film is attached to the skin.

International Publication No. 2014/058066

T. Fujie et al. , Adv. Funct. Mater. , 2009, Vol. 19, pp. 2560-1568

By the way, on the surface of the skin, not a little sebum secreted from the sebaceous glands is present. While sebum has positive effects such as skin protection, moisturization, and antibacterial properties, it can also cause harmful effects such as odor and makeup loss.

An object of the present invention is to provide a skin-attaching film and a transfer sheet capable of suppressing the harmful effects of sebum.

The skin-sticking film that solves the above problems is a skin-sticking film having an average mass of 0.01 g / m ² or more and 10 g / m ² or less, and has a first surface to be attached to the skin and the first surface. It has a second surface which is a surface opposite to the above, and the first surface is incompatible with sebum.

According to the above configuration, when the skin sticking film is stuck on the skin, sebum is suppressed from seeping into the skin sticking film, and as a result, sebum exudes to the second surface of the skin sticking film. Is suppressed. As a result, the harmful effects of the presence of sebum on the outermost surface of the living body, such as makeup loss, can be suppressed.

In the above configuration, the skin-sticking film may be a laminate including a surface layer constituting the first surface and a thin film layer constituting the second surface.
According to the above configuration, a film for skin application having a first surface incompatible with sebum can be formed by laminating the thin film, so that the skin is compared with the case where the first surface is formed by surface modification of the thin film, for example. Manufacture of a sticking film is easy.

In the above configuration, the surface layer may be composed of a water-soluble material.
According to the above configuration, the first surface that is incompatible with sebum is preferably realized.

In the above configuration, when the first surface of the skin-sticking film is brought into contact with a filter paper impregnated with artificial sebum and allowed to pass for 4 hours, the portion where the artificial sebum has exuded on the second surface. The ratio of the area to the second surface may be 30% or less.
According to the above configuration, even when the skin sticking film is stuck on a part having a large amount of sebum such as the forehead, the exudation of sebum on the second surface of the skin sticking film is suitably suppressed.

The transfer sheet that solves the above problems includes the skin-attaching film, a protective layer that covers the first surface of the skin-attaching film, and a support layer that supports the second surface of the skin-attaching film. Be prepared.
According to the above configuration, since the first surface of the skin-attaching film is protected during storage or movement of the transfer sheet, incompatibility with sebum on the first surface is preferably maintained. Further, since the skin-attached film is supported by the support layer, the deformation of the skin-attached film is suppressed, and the skin-attached film becomes easy to handle.

According to the present invention, the harmful effects of sebum can be suppressed.

The figure which shows the cross-sectional structure of the skin sticking film about one Embodiment of a skin sticking film. The figure which shows the cross-sectional structure of the transfer sheet about one Embodiment of the transfer sheet.

An embodiment of the skin-attached film and the transfer sheet will be described with reference to the drawings.
[Structure of film for skin application]
As shown in FIG. 1, the skin-attaching film 10 has a first surface 10F and a second surface 10R which is a surface opposite to the first surface 10F. The first surface 10F is a surface to be attached to the skin. The second surface 10R is a surface that is exposed to the outside air when the skin-attaching film 10 is attached to the skin.

The skin-attached film 10 includes a thin film layer 11 and a surface layer 12. The surface layer 12 is laminated on one of the two surfaces of the thin film layer 11. The first surface 10F is the surface of the surface layer 12, and the second surface 10R is the surface of the thin film layer 11. That is, when the skin-attaching film 10 is attached to the skin, the surface layer 12 comes into contact with the skin.

The thin film layer 11 is thin enough to exhibit adhesiveness to the skin. For example, the thickness of the thin film layer 11 is 10 nm or more and 5000 nm or less. If the thickness of the thin film layer 11 is within the above range, the thin film layer 11 itself adheres to the surface of the living body without using the adhesive layer. From the viewpoint of enhancing the adhesion to the skin, the thickness of the thin film layer 11 is preferably 2000 nm or less. Further, the thickness of the thin film layer 11 can be improved because the adhesion to the skin and the followability to the surface shape of the skin can be enhanced, and the discomfort that occurs in the living body when the thin film layer 11 is attached can be reduced. Is preferably 100 nm or more and 750 nm or less. The thin film layer 11 may be a layer composed of a single thin film, or may be a layer composed of a plurality of thin films.

Expressing the thinness to the extent that adhesiveness to the skin is exhibited by the mass of the thin film layer 11 instead of the thickness, for example, the density of the thin film layer 11 is 1 g / cm ³ or more and 3 g / cm ³ or less. When, the average mass per unit area of the thin film layer 11 is 0.01 g / m ² or more and 10 g / m ² or less. If the average mass of the thin film layer 11 is within the above range, the thin film layer 11 itself adheres to the surface of the living body without using the adhesive layer.

The material constituting the thin film layer 11 is not particularly limited as long as it is a material capable of forming the thin film layer having the above thickness or mass. The material of the thin film layer 11 is composed of, for example, a polymer material such as polylactic acid, hyaluronic acid, polyglycolic acid, fibroin, polycaprolactone, chitosan, a copolymer of these polymer materials, and an acrylic urethane copolymer. One or more materials selected from the group. The material of the thin film layer 11 is not particularly limited in molecular weight, and the thin film layer 11 may be composed of one kind of material having a predetermined average molecular weight, or may be composed of a plurality of kinds of materials having different average molecular weights. You may.

The thin film layer 11 may contain a functional substance that is a substance that exerts a predetermined function on the skin. Examples of the functional substance include cosmetics or cosmetic ingredients used for skin care such as moisturizing creams and beauty essences, pigments, drugs, proteins, enzymes and the like. The thin film layer 11 may contain only one type of functional substance, or may contain two or more types.

The surface layer 12 is composed of a material that is incompatible with sebum. For example, the surface layer 12 is made of a water-soluble material. Examples of the water-soluble material include water-soluble resins such as polyvinyl alcohol and polyvinylpyrrolidone, cellulose derivatives such as carboxymethyl cellulose and methyl cellulose, and natural polysaccharides such as sodium alginate. In the present embodiment, the water-soluble material refers to a material that dissolves 0.1 g or more in 100 g of water at 20 ° C. Alternatively, the surface layer 12 may be a layer formed by spraying fluorine oil or the like onto the surface of the thin film layer 11, and may have an oil-repellent surface as the first surface 10F.

The thicker the surface layer 12, the lower the permeability of sebum in the skin-sticking film 10, and the thinner the surface layer 12, the higher the adhesion of the skin-sticking film 10 to the skin. From this point of view, the thickness of the surface layer 12 is preferably 1 nm or more and 2000 nm or less.

Further, in order to obtain good adhesiveness of the skin-attaching film 10 to the skin, the thickness of the surface layer 12 is preferably smaller than the thickness of the thin film layer 11, and the thin film layer 11 and the surface layer 12 are combined. The total thickness of the skin-attached film 10 is preferably 11 nm or more and 5001 nm or less. Further, in order to obtain good adhesiveness of the skin-attaching film 10 to the skin, the density of the skin-attaching film 10 in which the thin film layer 11 and the surface layer 12 are combined is 1 g / cm ³ or more and 3 g / cm ³ or less. At one time, the average mass of the skin-attached film 10 per unit area is preferably 0.01 g / m ² or more and 10 g / m ² or less.

The thickness of the skin-sticking film and its constituent layers described above is an average thickness, which is an average value of film thicknesses measured at a plurality of measurement points. Further, the average mass of the above-mentioned skin-sticking film and its constituent layers is the mass converted per portion having an area of 1 m ^{2 in} a plan view, and each of any three points in the target is viewed in a plan view. It is obtained by cutting into a square-shaped film piece having a side of 100 mm and multiplying the average value of the masses of the three film pieces measured by a precision balance by 100.

In the present embodiment, since the surface layer 12 is provided, the skin-attached film 10 has a first surface 10F that is incompatible with sebum. The fact that the first surface 10F is incompatible with sebum means that one hour after the artificial sebum is brought into contact with the first surface 10F, the artificial sebum is removed by tissue-off, that is, when the artificial sebum is lightly pressed with a tissue to remove the first surface. It means that the distortion and distortion are not visible on the 10th floor. As the artificial sebum, an artificial sebum having a composition used for calculating the sebum permeation area ratio, which will be described later, is used.

Since the skin application film 10 has the first surface 10F that is incompatible with sebum, the permeation of sebum in the skin application film 10 is suppressed. The inventor of the present application has found that the inhibitory property of sebum permeation in the skin-adhesive film 10 can be accurately evaluated by using the sebum permeation area ratio.

The sebum permeation area ratio is such that when the first surface 10F of the skin-attaching film 10 is brought into contact with the filter paper impregnated with the artificial sebum and allowed to pass for 4 hours, the artificial sebum exudes on the second surface 10R. It is the ratio of the area of the portion to the second surface 10R. Specifically, the sebum permeation area ratio is calculated by the following procedure.

1) Apply artificial sebum to the surface of the polypropylene film so that the amount applied per 1 cm ² is 6 g. As the polypropylene film, for example, a film having a thickness of 50 μm manufactured by Futamura Chemical Co., Ltd. is used. The composition of the artificial sebum is 31.4% by weight of oleic acid, 14.2% by weight of squalene, 23.1% by weight of octyldodecyl myristate, and 31.3% by weight of triolein.

2) Place a filter paper for Kiriyama funnel (Kiriyama Glass Co., Ltd .: No. 5A, diameter 40 mm) on the surface of the artificial sebum on the polypropylene film. The amount of sebum exuded on the filter paper was measured with a sebum meter manufactured by Delphin Technology Co., Ltd. and found to be about 30 μg / cm ² . Sebum amount of men amounts generally known is ^{30μg / cm 2 ~40μg / cm 2} , the amount of sebum on the filter paper, it was confirmed to be substantially close state sebum amount in a general male Amount ..

3) A paper frame having a square outer shape with a side of 70 mm and a frame width of 5 mm is produced, and is used for skin sticking so that the end of the skin sticking film 10 is supported by the frame. The film 10 is fixed to the frame. As a result, the square skin-sticking film 10 having a side of 60 mm is arranged in the area surrounded by the frame. The skin-sticking film 10 is laminated on the filter paper on the artificial sebum prepared in 2) above so that the surface layer and the filter paper are in contact with each other, and lightly pressure-bonded to form a sample.

4) The sample formed in 3) above is placed in an environment of 25 ° C. for 4 hours, and then an oil removing paper (manufactured by Kose Cosmetics Co., Ltd.) formed into a circular shape having a diameter of 40 mm is used as a skin-sticking film 10 on the sample. Place it on top and lightly crimp. As a result, the sebum exuded on the second surface 10R of the skin sticking film 10 is transferred to the oil removing paper.

5) The area of the sebum portion transferred to the oil-removing paper according to 4) above, that is, the area of the portion of the oil-removing paper that is discolored due to the adsorption of sebum is calculated by image processing, and the total area of the oil-removing paper is calculated. Find the ratio of the area of the sebum to the area of the sebum. The area ratio of the sebum portion is the sebum permeation area ratio. For image processing, for example, ImageJ, which is open source image processing software, is used. In the image processing, for example, using a threshold value determined by a discriminant analysis method such as Otsu's discriminant analysis method, a binarization process is performed on an image obtained by taking an oil-removing paper to obtain a binarized image. By performing particle analysis on this binarized image, the sebum permeation area ratio can be obtained.

In order to preferably suppress the harmful effects of sebum exudation, it is preferable that the sebum permeation area ratio in the skin-attached film 10 is 30% or less. When the sebum penetration area ratio is 30% or less, even when the skin application film 10 is attached to a part such as a forehead with a large amount of sebum, the sebum adheres to the finger touching the second surface 10R. Exudation of sebum in the skin-adhesive film 10 is suppressed to the extent that it is not recognized. Therefore, for example, when a cosmetic such as a foundation is applied on the skin-sticking film 10, the makeup is prevented from collapsing.

[Structure of transfer sheet]
As shown in FIG. 2, the transfer sheet 20 includes a skin-attaching film 10, a support layer 21, and a protective layer 22.

The support layer 21 is in contact with the second surface 10R of the skin sticking film 10 and supports the skin sticking film 10. The support layer 21 is a skin-attaching film when the skin-attaching film 10 is stored or when the skin-attaching film 10 is moved to a target portion to be attached to the skin-attaching film 10 when the skin-attaching film 10 is used. It has a function of suppressing deformation of 10. By being supported by the support layer 21, the skin-attached film 10 becomes easy to handle.

The support layer 21 is preferably a porous base material. The porous base material is a base material having a large number of minute gaps inside, and is capable of permeating or permeating a liquid. Examples of the porous base material that can be used as the support layer 21 include a sheet made of a fibrous material such as a non-woven fabric, paper, knitted fabric, and a woven fabric, and a resin sheet having a structure including gaps such as a mesh. Among these base materials, a non-woven fabric is preferably used because it can quickly absorb and diffuse water. The fibers constituting the non-woven fabric are, for example, natural fibers such as cotton, hemp, wool and pulp, semi-synthetic fibers such as rayon, and synthetic fibers such as polyvinyl alcohol and polyacrylic acid. Among the above fibers, natural fibers, particularly pulp, are preferably used. The non-woven fabric may be composed of one type of fiber or may be composed of two or more types of fibers.

The method for producing the non-woven fabric used as the support layer 21 is not particularly limited, and examples of the production method include a spunlace method, a spunbond method, a needle punch method, a melt blow method, an air array method, a flash spinning method, and a resin bonding method. .. The basis weight of the non-woven fabric used as the support layer 21 is preferably 10 g / m ² or more and 150 g / m ² or less, and is 20 g / m ² or more and 50 g / m ² or less because it is excellent in usability such as touch. More preferred. The basis weight of the non-woven fabric is, that is, the mass per unit area of the non-woven fabric.
The support layer 21 is not limited to the porous base material, and may be made of a base material such as a resin sheet or a metal foil having no gap inside.

The protective layer 22 covers the first surface 10F of the skin-attached film 10 and protects the skin-attached film 10. As the protective layer 22, each of the above-mentioned materials exemplified as the porous base material constituting the support layer 21 can be used. The protective layer 22 and the support layer 21 may be composed of the same type of porous substrate, or may be composed of different types of porous substrates. The protective layer 22 is not limited to the porous base material, and may be made of a base material such as a resin sheet or a metal foil having no gap inside.

[Manufacturing method of skin-attached film and transfer sheet]
An example of a method for manufacturing the skin-attached film 10 and the transfer sheet 20 will be described.
If the above-mentioned skin-sticking film 10 and transfer sheet 20 can be manufactured, a manufacturing method different from the following may be used.

First, the thin film layer 11 is formed on the surface of the film-forming base material. As the base material for film formation, a resin sheet composed of a thermoplastic resin, a thermosetting resin, a water-soluble resin, or the like is used.
Specifically, a coating liquid in which the material of the thin film layer 11 is dissolved is applied to the surface of the film-forming base material, and the coating film is dried to form the thin film layer 11. As the solvent for the coating liquid, a protonic polar solvent or an aprotonic polar solvent is used depending on the characteristics of the material of the thin film layer 11. Examples of the protonic polar solvent include water, ethanol, isopropanol, acetic acid and the like. Examples of the aprotonic polar solvent include ethyl acetate, butyl acetate, propyl acetate, methyl ethyl ketone, acetone, dimethyl sulfoxide and the like.

The method of applying the coating liquid is not particularly limited as long as it can form the thin film layer 11 with a desired film thickness. As the coating method, for example, any one of a gravure method, a microgravure method, a spin coating method, a spray coating method, and an electrospinning method is preferably used. The drying temperature of the coating film is preferably equal to or higher than the boiling point of the solvent used in the coating solution.

Subsequently, the support layer 21 is brought into contact with the surface of the thin film layer 11 on the film-forming base material, and the thin film layer 11 is transferred from the film-forming base material to the support layer 21. As the transfer method, a known transfer method such as a method using peeling by suction or a method using a sacrificial film may be used.

Further, a surface layer 12 is formed on the surface of the thin film layer 11 on the support layer 21. For example, a coating liquid in which the material of the surface layer 12 is dissolved is applied to the surface of the thin film layer 11, and the coating film is dried to form the surface layer 12. When the surface layer 12 is composed of a water-soluble material, for example, water may be used as the solvent for the coating liquid.

The method of applying the coating liquid is not particularly limited as long as the surface layer 12 can be formed to a desired film thickness. Examples of the coating method include a gravure method, a microgravure method, a spin coating method, a spray coating method, an electrospinning method and the like.

After the surface layer 12 is formed, the protective layer 22 is laminated on the surface of the surface layer 12. As a result, the transfer sheet 20 including the skin-attaching film 10 is formed. The outer shapes of the skin-attached film 10 and the transfer sheet 20 may be adjusted by a method such as die cutting before or after laminating the protective layer 22.

[How to apply the film for skin application]
The method of attaching the skin-attaching film 10, that is, the method of transferring the skin-attaching film 10 using the transfer sheet 20 will be described. Hereinafter, a method of using a porous base material as the support layer 21 and moistening the transfer sheet 20 to transfer the skin-attaching film 10 to the skin will be described.

First, a liquid such as water is supplied to the place where the skin sticking film 10 is stuck on the skin. The supply liquid, which is the liquid to be supplied, may be any liquid that can wet the transfer sheet 20, and specifically, it may be a liquid containing water or oils such as massage oil. For example, as the supply liquid, water or a cosmetic such as a lotion can be used.

Subsequently, the protective layer 22 is peeled off from the transfer sheet 20, and a laminate of the skin-attaching film 10 and the support layer 21 is placed on the skin so that the first surface 10F of the skin-attaching film 10 is in contact with the application portion. To do. By pressing the laminate with a finger or the like from above the support layer 21, the supply liquid is allowed to permeate into the support layer 21. The load applied to the skin-attaching film 10 at the time of this pressing is preferably 10 g / cm ² or more and 900 g / cm ² or less. Further, in order to reduce the damage given to the skin, the load is more preferably 10 g / cm ² or more and 20 g / cm ² or less. Even with a load of this magnitude, the skin-attaching film 10 sufficiently adheres to the skin.

Subsequently, the support layer 21 is peeled off from the skin-sticking film 10. As a result, the skin-attaching film 10 is attached to the skin. Due to the expansion of the support layer 21 which is a porous base material due to wetting and the infiltration of the supply liquid between the support layer 21 and the skin application film 10, the support layer 21 is used for skin application. It becomes easy to peel off from the film 10.

In the above transfer method, a method of supplying the supply liquid to the skin before arranging the transfer sheet 20 on the skin is illustrated, but after the transfer sheet 20 is placed on the skin, the supply liquid is the transfer sheet 20. May be supplied to. Further, the support layer 21 may be peeled off from the skin-attaching film 10 without wetting the transfer sheet 20. In this case, the support layer 21 does not have to be a porous base material.

After the skin sticking film 10 is stuck to the skin, the cosmetic may be applied over the skin sticking film 10. In this case, the cosmetic is applied to the second surface 10R of the skin application film 10. The type of cosmetics to be applied is not particularly limited, and for example, makeup cosmetics such as foundations and sun care cosmetics such as sunscreens can be used. By using the skin-sticking film 10 of the present embodiment, the exudation of sebum can be suppressed, so that the makeup can be suppressed from collapsing.

[Example]
The above-mentioned skin-sticking film will be described with reference to specific examples and comparative examples.
(Example 1)
DL-polylactic acid (manufactured by Musashino Chemical Laboratory Co., Ltd.) was dissolved in ethyl acetate so that the solid content was 6% to generate a coating liquid for forming a thin film layer. The average molecular weight of the polylactic acid used is 110,000. The above coating solution was applied to a polyethylene terephthalate sheet (manufactured by Toray Industries, Inc .: Lumirror S10) as a substrate for film formation using a wire bar (count # 4) to form a coating film. A thin film layer was formed by heating the coating film at 70 degrees for 60 seconds using an oven to dry and solidify it. The thickness of the thin film layer after drying is about 300 nm.

Subsequently, a non-woven fabric (manufactured by Futamura Chemical Co., Ltd.) was laminated on the thin film layer as a support layer, the film-forming base material was peeled off, and the nano-thin film was transferred from the film-forming base material to the support layer. The main component of the non-woven fabric is cellulose, and the basis weight is 20 g / m ² .

Polyvinyl alcohol (manufactured by Denka Co., Ltd .: degree of polymerization 2400, partially saponified type) is dissolved in a mixed solvent of water and isopropanol so that the solid content is 1%, thereby producing a coating liquid for forming a surface layer. did. The composition of the mixed solvent is 80% water and 20% isopropanol. The coating liquid was applied onto the thin film layer laminated on the support layer using a wire bar (count # 4) to form a coating film. A surface layer was formed by heating the coating film at 70 degrees for 60 seconds using an oven to dry and solidify it. The thickness of the surface layer after drying is about 50 nm.
As a result, a film for skin application of Example 1 having a thin film layer and a surface layer was obtained. The total thickness of the skin-attached film of Example 1 is about 350 nm.

(Example 2)
The ratio of polyvinyl alcohol in the coating liquid for forming the surface layer was changed so that the solid content was 5%, and the surface layer was formed so that the thickness after drying was about 250 nm. A film for skin application of Example 2 was obtained by the same process as in Example 1 except for the above. The total thickness of the skin-attached film of Example 1 is about 550 nm.

(Example 3)
A laminate of a support layer and a thin film layer was obtained by the same steps as in Example 1.
Carboxymethyl cellulose (manufactured by Tokyo Kasei Co., Ltd .: degree of polymerization of about 1050) is used instead of polyvinyl alcohol, and carboxymethyl cellulose is dissolved in water so that the solid content is 5%, thereby forming a coating for forming a surface layer. A liquid was produced. The coating liquid was applied onto the thin film layer laminated on the support layer using a wire bar to form a coating film. A surface layer was formed by heating the coating film at 70 degrees for 60 seconds using an oven to dry and solidify it. The thickness of the surface layer after drying is about 250 nm.
As a result, the skin-sticking film of Example 3 was obtained. The total thickness of the skin-attached film of Example 3 is about 550 nm.

(Example 4)
The ratio of carboxymethyl cellulose in the coating liquid for forming the surface layer was changed so that the solid content was 2.5%, and the surface layer was formed so that the thickness after drying was about 120 nm. A skin-sticking film of Example 4 was obtained by the same process as in Example 3 except for the above. The total thickness of the skin-attached film of Example 4 is about 420 nm.

(Comparative Example 1)
A skin-adhesive film of Comparative Example 1 was obtained by the same steps as in Example 1 except that the surface layer was not formed. The skin-attached film of Comparative Example 1 is composed of only a thin film layer, and its total thickness is about 300 nm.

(Comparative Example 2)
The surface layer was not formed and the coating liquid for forming the thin film layer was applied using a wire bar of count # 8, and the thin film layer was formed so that the thickness after drying was about 500 nm. A film for skin application of Comparative Example 2 was obtained by the same process as in Example 1. The skin-attached film of Comparative Example 2 is composed of only a thin film layer, and its total thickness is about 500 nm.

<Evaluation method>
(Sebum penetration area ratio)
For the skin-attached films of each Example and Comparative Example, the sebum permeation area ratio was calculated by the method described in the above embodiment. ImageJ was used for the image processing, and the sebum permeation area ratio was calculated based on the image obtained by the binarization processing using the discriminant analysis method of Otsu.

(Evaluation of sebum penetration state with skin sticking film alone)
A sample was prepared by cutting the laminate of the skin-sticking film and the support layer of each Example and Comparative Example into a square shape having a side of 30 mm. The washed forehead was lightly wiped with a water-moistened cosmetic cotton puff and brought into contact with the first surface of the skin-attached film in the sample. Then, the sample was lightly pressed on the support layer with a cosmetic cotton puff moistened with water, the support layer was peeled off, and the skin-sticking film was transferred to the forehead. After 4 hours had passed, a finger was pressed against the second surface of the skin-sticking film, and the adhesion of sebum to the finger was visually judged from the degree of shine.

(Evaluation of sebum penetration state when applying foundation)
A sample was prepared by cutting the laminate of the skin-sticking film and the support layer of each Example and Comparative Example into a square shape having a side of 30 mm. The washed forehead was lightly wiped with a water-moistened cosmetic cotton puff and brought into contact with the first surface of the skin-attached film in the sample. Then, the sample was lightly pressed on the support layer with a cosmetic cotton puff moistened with water, the support layer was peeled off, and the skin-sticking film was transferred to the forehead. Subsequently, a powder foundation was applied to the second surface of the skin-sticking film with a sponge. The powder foundation was applied to the entire surface of the second surface by repeating the operation of applying in one direction from the left end to the right end of the upper part of the second surface four times while shifting the application area downward. After 4 hours had passed, a finger was pressed against the second surface of the skin-sticking film from the powder foundation, and the adhesion of sebum to the finger was visually judged from the degree of shine.

<Evaluation result>
Table 1 shows the sebum permeation area ratio for each Example and Comparative Example, and the observation results of the degree of sebum adhesion to the finger in the evaluation of the sebum permeation state.

As shown in Table 1, in Examples 1 to 4 having a surface layer, in the evaluation of the sebum permeation state, the adhesion of sebum to the fingers was confirmed in both the skin application film alone and the foundation application. I didn't. Therefore, in Examples 1 to 4, it was confirmed that the permeation of sebum in the skin-sticking film was suitably suppressed.

On the other hand, in Comparative Examples 1 and 2 having no surface layer, it was confirmed that sebum adhered to the fingers in the case of the skin-attaching film alone. Further, when applying the foundation, the adhesion of sebum to the finger was confirmed in Comparative Example 1 having a small film thickness, and in Comparative Example 2 having a large film thickness, the amount of sebum to the finger was smaller than that of Comparative Example 1. Adhesion was confirmed. Therefore, in Examples 1 to 4, it was confirmed that the permeation of sebum was suppressed by the presence of the surface layer incompatible with sebum.

Focusing on the sebum permeation area ratio of each example and the comparative example, the sebum permeation area ratio is particularly high in Comparative Example 1 in which the adhesion of sebum to the finger was most remarkable in the evaluation of the sebum permeation state. As the sebum permeation area ratio decreases, the sebum permeation in the skin application film is suppressed, and in Examples 1 to 4 where the sebum permeation area ratio is 30% or less, the adhesion of sebum to the fingers is not confirmed. It was shown that the penetration of sebum was suppressed.

As described above in the embodiments and examples, the effects listed below can be obtained by the skin-sticking film and the transfer sheet.
(1) The skin-attaching film 10 has a surface incompatible with sebum as the first surface 10F to be attached to the skin. Therefore, when the skin sticking film 10 is stuck to the skin, it is possible to prevent the sebum from seeping into the skin sticking film 10, and as a result, the sebum on the second surface 10R of the skin sticking film 10 is prevented. Exudation is suppressed. As a result, the harmful effects of the presence of sebum on the outermost surface of the living body, such as makeup loss, can be suppressed.

(2) The skin-sticking film 10 is a laminated body including a surface layer 12 forming the first surface 10F and a thin film layer 11 forming the second surface 10R. Therefore, the skin-adhesive film 10 having the first surface 10F incompatible with sebum can be formed by laminating the thin films. Therefore, as compared with the case where the first surface 10F is formed by surface modification of a thin film, for example, the skin-attaching film 10 can be easily manufactured.

(3) If the surface layer 12 is in the form of a water-soluble material, the first surface 10F, which is incompatible with sebum, is preferably realized.
(4) Since the sebum permeation area ratio in the skin sticking film 10 is 30% or less, even when the skin sticking film 10 is stuck on a part having a large amount of sebum such as the forehead, the skin sticking film 10 The exudation of sebum onto the second surface 10R of the above surface is preferably suppressed.

(5) Since the transfer sheet 20 includes a protective layer 22 that covers the first surface 10F of the skin-attaching film 10, the first surface 10F is protected during storage or movement of the transfer sheet 20, and is incompatible with sebum. Is preferably maintained. Further, since the skin sticking film 10 is supported by the support layer 21, the skin sticking film 10 is suppressed from being deformed, and the skin sticking film 10 becomes easy to handle.

[Modification example]
The above embodiment can also be modified and implemented as follows.
-The film 10 for skin application does not have to be a laminate of the thin film layer 11 and the surface layer 12 as long as it has the first surface 10F that is incompatible with sebum. For example, the surface of the thin film layer 11 may be modified to be hydrophilic having incompatibility with sebum to form a first surface 10F incompatible with sebum. Further, the surface layer 12 does not have to be a layer formed by applying a coating liquid, and for example, the surface layer 12 may be a layer formed by vapor deposition. Further, the surface layer 12 may be a hydrophilic monomolecular layer having incompatibility with sebum.

10 ... Skin sticking film, 10F ... 1st surface, 10R ... 2nd surface, 11 ... Thin film layer, 12 ... Surface layer, 20 ... Transfer sheet, 21 ... Support layer, 22 ... Protective layer.

Claims (5)

A film for skin application having an average mass of 0.01 g / m ² or more and 10 g / m ² or less.
It has a first surface to be attached to the skin and a second surface which is a surface opposite to the first surface.
A film for skin application whose first surface is incompatible with sebum. The skin-sticking film according to claim 1, which is a laminated body including a surface layer constituting the first surface and a thin film layer constituting the second surface. The skin-sticking film according to claim 2, wherein the surface layer is made of a water-soluble material. When the first surface of the skin-sticking film is brought into contact with a filter paper impregnated with artificial sebum and allowed to pass for 4 hours, the second surface of the portion where the artificial sebum has exuded to the second surface. The skin-attached film according to any one of claims 1 to 3, wherein the ratio of the area to the total is 30% or less. The skin-sticking film according to any one of claims 1 to 4,
A protective layer covering the first surface of the skin-attached film, and
A support layer that supports the second surface of the skin-attached film, and
A transfer sheet comprising.