JP4173649B2 - Manufacturing method of label sheet with cleaning function - Google Patents

Description

【００２９】
比較例
実施例において、クリーニングシートに中心波長３６５ｎｍの紫外線を積算光量１０００ｍＪ／ｃｍ²照射しなかった以外は、実施例と同様にしてクリーニングシートを作製し、このクリーニングシートを用いて、実施例と同様にして直径２００ｍｍの円形状の打ち抜きによりシート切断を行い、クリーニング機能付きラベルシートを作製した。 この際、クリーニング層が硬化していないためクッション材の働きをしてしまい、打ち抜き深さが均一にならずラベルの打ち抜き不良が多数発生した。 また作製できたラベルを観察したところ、ラベル端部で粘着剤がはみ出しており、またラベル上には打ち抜き時の粘着剤の糸引きにより粘着剤の汚染が多数見られた。 また、特にラベル端部のクリーニング層側の剥離フィルム上には粘着剤が回りこんで付着していた。 ラベル作製後、中心波長３６５ｎｍの紫外線を積算光量１０００ｍＪ／ｃｍ²照射したが、ラベル端部の粘着剤は酸素阻害により硬化しておらず粘着性を有していた。 従って、このラベルシートを用いての搬送用クリーニングウエハの作製を中止した。
【００３０】
【発明の効果】
以上のように本発明のクリーニング機能付きラベルシートの製造方法によれば、ラベル形状とするためのシート打ち抜き時の打ち抜き不良がなく粘着剤汚染のないクリーニング用ラベルシートを製造できるとともに、基板処理装置内を確実に搬送でき、装置内に付着している異物を簡便かつ確実に除去できるクリーニング機能付きラベルシートを製造できるという効果がある。
【図面の簡単な説明】
【図１】 本発明で得られたクリーニング機能付きラベルシートの実例を示す一部平面図である。
【図２】 図１のａ−ａ線の断面図である。
【符号の説明】
１：セパレータ、Ａ：クリーニング機能付き用ラベル、２：支持体、３：クリーニング層、４：剥離フィルム、５：通常の粘着剤層[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method for manufacturing a label sheet for cleaning various apparatuses, for example, a method for manufacturing a label sheet with a cleaning function for a substrate processing apparatus that dislikes foreign matter, such as a manufacturing apparatus or an inspection apparatus for a semiconductor, a flat panel display, a printed board, etc. About.
[0002]
[Prior art]
Various substrate processing apparatuses transport each transport system and the substrate in physical contact with each other. At this time, if foreign substances adhere to the substrate or the transport system, subsequent substrates are contaminated one after another, and it is necessary to periodically stop the apparatus and perform a cleaning process. For this reason, there existed a problem that an operation rate fall and a lot of labor were needed. In order to solve these problems, there has been proposed a method (for example, Japanese Patent Laid-Open No. 10-154686) that removes adhered foreign substances in the substrate processing apparatus by transporting a substrate to which an adhesive substance is fixed.
[0003]
The method of cleaning and removing the adhered foreign matter in the substrate processing apparatus by transporting the substrate to which the adhesive substance is fixed is an effective method for overcoming the above-described problems. However, in this method, the adhesive substance and the apparatus contact portion are too strongly bonded and may not be peeled off, and there is a possibility that the substrate cannot be reliably conveyed. This problem is particularly noticeable when a vacuum suction mechanism is used for the chuck table of the apparatus.
[Problems to be solved by the invention]
[0004]
In addition, regarding the manufacturing method of the transport member with the cleaning function as described above, for example, when a cleaning transport member is manufactured by bonding a cleaning sheet to a transport member such as a substrate, a cleaning sheet larger than the transport member is pasted. Thereafter, a method of cutting the cleaning sheet along the shape of the member (hereinafter referred to as a direct cutting method) is known. However, in this method, cutting waste may be generated from the cleaning layer or the like when the sheet is cut. Or may adhere to the device. In the method of manufacturing a cleaning conveyance member by bonding a cleaning label sheet that has been punched into a conveyance member shape in advance to the conveyance member (hereinafter referred to as a pre-cut method), cutting waste during sheet punching Occurrence is suppressed compared to the direct cut method, but the cleaning layer adhesive may protrude from the punching surface during sheet punching, and the adhesive may adhere to the edge of the label. May cause trouble. Furthermore, when a polymerization curing type is used for the adhesive, the adhesive at the end of the label causes a poor curing due to polymerization inhibition due to oxygen inhibition when trying to cure after punching the sheet. There is a risk of adhesive contamination.
In light of such circumstances, the present invention can reliably transport a substrate into a substrate processing apparatus, and can easily and reliably remove foreign substances adhering to the apparatus. Further, in the pre-cut method, when a sheet is punched, defective punching or adhesion It aims at providing the manufacturing method of the label sheet with a cleaning function which does not generate | occur | produce the hardening defect of an agent.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, the present inventors have intensively studied. As a result, in a method for producing a label sheet with a cleaning function by a pre-cut method, a curable adhesive that polymerizes and cures the cleaning layer by receiving active energy. A label sheet with a cleaning function that can easily and reliably remove foreign matters without causing the above-mentioned problem by performing a sheet punching process for forming a label shape after the polymerization curing reaction of the adhesive of the cleaning layer. The inventors have found that it can be manufactured, and have completed the present invention.
[0006]
That is, the present invention is provided on one side of a support with a cleaning layer obtained by polymerizing and curing a curable adhesive that is activated and cured by receiving active energy with the surface protected by a release film. A plurality of cleaning labels, each having a normal pressure-sensitive adhesive layer on the other side , are provided on the long separator through the normal pressure-sensitive adhesive layer in a continuously peelable state. in the cleaning function label sheet manufacturing method comprising Te, the production method (claim cleaning function label sheet which is characterized in that the sheet punching process to the label shape after polymerization curing reaction of the cleaning layer of the adhesive 1 ) When the sheet is punched into the label shape, the tensile modulus of elasticity of the cleaning layer (according to the test method JIS K7127) is 10 MPa or less. The method for producing a label sheet with a cleaning function according to claim 1, wherein the cleaning layer has at least one unsaturated double bond in the molecule and the pressure-sensitive adhesive polymer. 2. The method for producing a label sheet with a cleaning function according to claim 1, wherein a curable pressure-sensitive adhesive comprising a polymerizable unsaturated compound and a polymerization initiator is polymerized and cured by active energy (claim). 3. The label with a cleaning function according to claim 3, wherein the pressure-sensitive adhesive polymer is an acrylic polymer having (meth) acrylic acid and / or (meth) acrylic acid alkyl ester as a main monomer. method for producing a sheet (claim 4), the polymerization initiator is a photopolymerization initiator, the ultraviolet irradiating light curable adhesive cleaning layer Those according to claim 3 manufacturing method of cleaning function label sheet, wherein it is a layer made by coupling cured (Claim 5).
[0007]
DETAILED DESCRIPTION OF THE INVENTION
In the method for producing a label sheet with a cleaning function of the present invention, the cleaning layer is a curable pressure-sensitive adhesive that undergoes polymerization and curing upon receiving active energy, and the sheet punching process for forming a label shape is a polymerization of the pressure-sensitive adhesive in the cleaning layer. It is necessary to carry out after the curing reaction. If the adhesive constituting the cleaning layer is not polymerized and cured at the time of punching the sheet, the adhesive layer constituting the cleaning layer may protrude from the label edge or adhere to the punched surface, or the adhesive may The punching depth becomes uneven or the punched surface becomes rough, resulting in a punching failure in the worst case. Further, if the polymerization curing reaction is performed after the sheet is punched, the adhesive facing the punched portion is inhibited from polymerization due to oxygen inhibition, which causes the adhesive to the substrate processing apparatus.
[0008]
In the present invention, it is particularly desirable that the tensile modulus of elasticity of the cleaning layer (according to the test method JIS K7127) is 10 MPa or more, preferably 10 to 2000 MPa, so as not to cause the above-mentioned problem during sheet punching. By setting the tensile elastic modulus to be equal to or higher than the specific value, it is possible to further suppress the sticking of the adhesive from the cleaning layer at the time of punching the sheet and the punching failure, and it is possible to produce a label sheet with a cleaning function free from adhesive contamination in the pre-cut method. . If this tensile elastic modulus is less than 10 MPa, there is a possibility that the above problems at the time of punching the sheet or adhesion to a site to be cleaned in the apparatus during conveyance may cause a conveyance trouble. On the other hand, if the tensile modulus is too large, the ability to remove adhered foreign matter on the transport system may be reduced.
[0009]
As the cleaning layer in the present invention, a curable pressure-sensitive adhesive that undergoes polymerization and curing upon receiving active energy is used. As a result, the adhesiveness of the cleaning layer is substantially eliminated, and it is possible to provide a cleaning member that can be reliably transported without being strongly adhered to the apparatus contact portion when the cleaning member is transported. Examples of such an active energy source include ultraviolet rays and heat, but ultraviolet rays are preferred.
The material of the cleaning layer is not particularly limited as long as it has the property of being cured by an active energy source and having a three-dimensional network structure. For example, a pressure-sensitive adhesive polymer and an unsaturated double bond are formed in the molecule. A curable pressure-sensitive adhesive comprising at least one polymerizable unsaturated compound and a polymerization initiator is preferred.
[0010]
Examples of the pressure-sensitive adhesive polymer include acrylic polymers having (meth) acrylic acid and / or (meth) acrylic acid ester selected from acrylic acid, acrylic acid ester, methacrylic acid, and methacrylic acid ester as main monomers. It is done. In synthesizing this acrylic polymer, a compound having two or more unsaturated double bonds in the molecule is used as a copolymerization monomer, or a compound having an unsaturated double bond in the molecule is used in the synthesized acrylic polymer. By introducing an unsaturated double bond into the molecule of the acrylic polymer, for example, by chemically bonding it with a reaction between functional groups, this polymer itself is also involved in the polymerization curing reaction by active energy. You can also.
[0011]
Here, the polymerizable unsaturated compound having one or more unsaturated double bonds in the molecule (hereinafter referred to as a polymerizable unsaturated compound) is a low molecular weight substance that is nonvolatile and has a weight average molecular weight of 10,000 or less. The molecular weight is preferably 5000 or less so that the three-dimensional network of the pressure-sensitive adhesive layer at the time of curing can be efficiently formed. Here, the polymerizable unsaturated compound is preferably a non-volatile and low molecular weight material having a weight average molecular weight of 10,000 or less, and in particular, 5000 so that the three-dimensional network of the cleaning layer at the time of curing is efficiently made. It preferably has the following molecular weight: Examples of such polymerizable unsaturated compounds include phenoxy polyethylene glycol (meth) acrylate, ε-caprolactone (meth) acrylate, polyethylene glycol di (meth) acrylate, polypropylene glycol di (meth) acrylate, and trimethylolpropane. Examples include tri (meth) acrylate, dipentaerythritol hexa (meth) acrylate, urethane (meth) acrylate, epoxy (meth) acrylate, oligoester (meth) acrylate, and one or more of these are used. It is done.
[0012]
The polymerization initiator added to the pressure-sensitive adhesive layer is not particularly limited, and known ones can be used. For example, when heat is used as an active energy source, thermal polymerization of benzoyl peroxide, azobisisobutyronitrile, etc. Initiators, and when using light, benzoyl, benzoin ethyl ether, cibenzyl, isopropyl benzoin ether, benzophenone, Michler's ketone chlorothioxanthone, dodecyl thioxanthone, dimethylthioxanthone, acetophenone diethyl ketal, benzyl dimethyl ketal, α-hydroxycyclo Examples thereof include photopolymerization initiators such as hexyl phenyl ketone, 2-hydroxydimethylphenylpropane, and 2,2-dimethoxy-2-phenylacetophenone.
[0013]
The cleaning layer is hardened by an active energy source and has a reduced adhesive strength, and has a 180 ° peeling adhesive strength (measured according to JIS Z0237) of 0.20 N / 10 mm or less with respect to the silicon wafer (mirror surface). It is preferably about 0.010 to 0.10 N / 10 mm. If this adhesive strength exceeds 0.20 N / mm, it may adhere to the portion to be cleaned in the apparatus during conveyance, which may cause conveyance trouble. The thickness of the cleaning layer is not particularly limited, but is usually about 5 to 100 μm.
[0014]
In the method for producing a label sheet with a cleaning function of the present invention, the cleaning layer made of the specific adhesive is provided on one side of the support with the surface protected by a release film, and the other side is a normal adhesive. A sheet other than the separator is punched out to form a label shape after the curable pressure-sensitive adhesive as the cleaning layer is cured on the cleaning sheet provided on the separator through the layer. At this time, the punching method and processing form are not particularly limited, but after punching according to the shape of the conveying member described later, unnecessary sheets are peeled and removed to form a label, and the label is printed around the label and at the end of the sheet. In a state where the sheet is left as a reinforcing part with a gap, an unnecessary sheet other than the label part and the reinforcing part can be peeled and removed to form a label.
[0015]
In the method for producing a label sheet with a cleaning function according to the present invention, the above-described specific cleaning layer is provided on one side of the support, and the other side is provided in a state where it can be peeled off on the separator via a normal adhesive layer. The cleaning sheet is used. The material of the pressure-sensitive adhesive layer on the other side is not particularly limited as long as it satisfies the pressure-sensitive adhesive function, and a normal pressure-sensitive adhesive (for example, acrylic or rubber-based) can be used. With this configuration, the label with a cleaning function is peeled off from a separator described later, and is attached to a transport member such as various substrates with a normal pressure-sensitive adhesive layer, and transported into the apparatus as a transport member with a cleaning function. It can be cleaned by touching. When the substrate is peeled off from the pressure-sensitive adhesive layer after cleaning in order to reuse the transport member such as the above-mentioned substrate, the adhesive force of the normal pressure-sensitive adhesive layer is peeled off 180 ° from the silicon wafer (mirror surface). An adhesive strength of 0.20 to 0.98 N / 10 mm, particularly about 0.40 to 0.98 N / 10 mm, is particularly preferable because it can be easily peeled off after cleaning without peeling during transport.
[0016]
The support for supporting the cleaning layer is not particularly limited, and examples thereof include plastic films such as polyethylene, polyethylene terephthalate, acetyl cellulose, polycarbonate, polypropylene, polyimide, polyamide, and polycarbodiimide. The thickness is usually about 10 to 100 μm.
[0017]
Further, the separator in the present invention is not particularly limited as long as the cleaning label can be peeled off. For example, polyester, polypropylene, which has been stripped with a silicone-based, long-chain alkyl-based, fluorine-based, fatty acid amide-based, silica-based release agent, Polyolefins such as polybutene, polybutadiene, and polymethylpentene, polyvinyl chloride, vinyl chloride copolymer, polyethylene terephthalate, polybutylene terephthalate, polyurethane, ethylene vinyl acetate copolymer, ionomer resin, ethylene / (meth) acrylic acid copolymer And a plastic film made of ethylene / (meth) acrylic acid ester copolymer, polystyrene, polycarbonate and the like. The thickness is not particularly limited, but is usually about 10 to 100 μm.
[0018]
Although it does not specifically limit as a conveyance member to which the label for cleaning is affixed, For example, a substrate for flat panel displays, such as a semiconductor wafer, LCD, and PDP,
Other examples include substrates such as compact disks and MR heads.
[0019]
Hereinafter, the present invention will be described more specifically based on the drawings.
FIG. 1 is a plan view showing an example of a label sheet with a cleaning function obtained by the present invention, and a plurality of cleaning labels A are continuously provided on a long separator 1 at intervals. Such a label A is provided with a cleaning layer 3 on one side of a support 2, a release film 4 on its surface, and a normal pressure-sensitive adhesive layer 5 on the other side as shown in FIG. 2 (cross-sectional view taken along line aa in FIG. 1). It is provided in a state where it can be peeled into the separator 1 through the pressure-sensitive adhesive layer 5.
At the time of use, the cleaning site can be cleaned by peeling the cleaning label from the separator 1 and sticking it to a transport member such as a semiconductor wafer, and further peeling the release film 4 and then transporting it into the apparatus.
[0020]
Further, the shape of the label A is not limited in any way, and may be, for example, a circular shape, a wafer shape, a frame shape, or a shape having a protrusion for a chuck portion, etc., depending on the shape of a transport member such as a substrate to be attached. be able to.
[0021]
【Example】
Hereinafter, although the present invention is explained based on an example, the present invention is not limited to these. Hereinafter, “parts” means parts by weight.
EXAMPLE Polyethylene glycol-based on 100 parts of an acrylic polymer (weight average molecular weight 700,000) obtained from a monomer mixture consisting of 75 parts of 2-ethylhexyl acrylate, 20 parts of methyl acrylate and 5 parts of acrylic acid. Ru 200 dimethacrylate (manufactured by Shin-Nakamura Chemical Co., Ltd .: trade name: Nk ester 4G), 50 parts of urethane acrylate (manufactured by Shin-Nakamura Chemical Co., Ltd .: trade name: UN-01), polyisocyanate compound ( Nippon Polyurethane Industry Co., Ltd .: Trade name: Coronate L) 3 parts and photopolymerization initiator benzyl dimethyl ketal (Ciba Specialty Chemicals: trade name: Irgacure 651) 3 parts uniformly mixed, UV curable adhesive The solution was adjusted.
On the other hand, a normal pressure-sensitive adhesive solution was obtained in the same manner as described above except that benzyldimethyl ketal was removed from the pressure-sensitive adhesive.
[0022]
The separator is made of a long polyester film (thickness 38 μm, width 250 mm) treated on one side with a silicone-based release agent so that the thickness after drying the above normal pressure-sensitive adhesive solution is 10 μm. Then, a long polyester film (thickness 25 μm, width 250 mm) is laminated on the pressure-sensitive adhesive layer, and an ultraviolet curable pressure-sensitive adhesive solution is applied onto the film so that the thickness after drying is 40 μm. A pressure-sensitive adhesive layer is provided as a cleaning layer, and a release film surface of a release film made of a long polyester film (thickness 38 μm, width 250 mm) treated on one surface with a silicone release agent is bonded to the sheet. Obtained.
[0023]
This sheet was irradiated with ultraviolet rays having a central wavelength of 365 nm and an integrated light quantity of 1000 mJ / cm ² to obtain a cleaning sheet having a cleaning layer cured by ultraviolet rays. The adhesive film, which is a laminated body other than the separator of the cleaning sheet, is cut by circular punching with a diameter of 200 mm, and the unnecessary adhesive film is continuously peeled and removed. A cleaning label sheet was prepared. This cleaning sheet punching process could be carried out without any problem with no threading of adhesive or cutting waste. Further, when the label sheet was observed after the production, no sticking out of the adhesive at the end of the label and no contamination of the adhesive on the label were observed.
In addition, after the cleaning layer of the cleaning sheet was cured by ultraviolet irradiation, that is, when the sheet was punched, the tensile elastic modulus was 49 MPa. Here, the tensile elastic modulus was measured according to the test method JIS K7127.
[0024]
The cleaning label was peeled off from the separator of the obtained label sheet with a cleaning function, and attached to the back surface (mirror surface) of an 8-inch silicon wafer with a hand roller to prepare a cleaning wafer for transportation with a cleaning function. In addition, 180 degree peeling adhesive force with respect to the silicon wafer (mirror surface) of a normal adhesive layer was 0.25 N / 10mm.
[0025]
Using this label sheet with a cleaning function, a label was attached to the back surface (mirror surface) of an 8-inch silicon wafer with a label tape applicator (manufactured by Nitto Seiki Co., Ltd .: trade name: NEL-GR3000). When this operation was performed 25 times in succession, the sheet could be stuck on the wafer without any problem, and a transport cleaning wafer with a cleaning function could be produced. The cleaning layer was affixed to the mirror surface of the silicon wafer with a width of 10 mm, and the 180 ° peel adhesion to the silicon wafer was measured according to JIS Z0237. As a result, it was 0.078 N / 10 mm.
[0026]
On the other hand, when measuring foreign matter of 0.2 μm or more on the mirror surface of two new 8-inch silicon wafers with a laser type foreign matter measuring apparatus, the number of the first piece was 6 and the number of the second piece was 5. After these wafers were transported to a substrate processing apparatus having separate electrostatic attraction mechanisms with the mirror surface facing down, foreign matter of 0.2 μm or more was measured with a laser type foreign matter measuring device. The first was 33456 and the second was 36091.
[0027]
Next, the release film on the cleaning layer side of the transport cleaning wafer obtained above was peeled off and transported into the substrate processing apparatus having the wafer stage on which the above 33456 foreign substances had adhered, and transport was possible without any problem. Thereafter, a new 8-inch silicon wafer was transported with the mirror surface facing downward, and foreign matters of 0.2 μm or more were measured with a laser type foreign matter measuring device. This operation was performed 5 times, and the foreign matter removal rate is shown in Table 1.
[0028]
[Table 1]

[0029]
Comparative Example In the example, a cleaning sheet was prepared in the same manner as in the example except that the cleaning sheet was not irradiated with ultraviolet light having a center wavelength of 365 nm of 1000 mJ / cm ² and the cleaning sheet was used. Similarly, a sheet was cut by punching a circular shape having a diameter of 200 mm to produce a label sheet with a cleaning function. At this time, since the cleaning layer was not cured, it acted as a cushioning material, and the punching depth was not uniform, and a number of defective label punching occurred. When the produced label was observed, the adhesive protruded from the end of the label, and many contaminations of the adhesive were observed on the label due to the threading of the adhesive at the time of punching. In particular, the adhesive wraps around and adheres to the release film on the cleaning layer side at the end of the label. After producing the label, ultraviolet light having a central wavelength of 365 nm was irradiated with an integrated light quantity of 1000 mJ / cm ^2. However, the adhesive at the end of the label was not cured due to oxygen inhibition and had adhesiveness. Therefore, production of the cleaning wafer for conveyance using this label sheet was stopped.
[0030]
【The invention's effect】
As described above, according to the method for producing a label sheet with a cleaning function of the present invention, it is possible to produce a cleaning label sheet that does not have a punching defect when punching a sheet and is free from adhesive contamination, and a substrate processing apparatus. There is an effect that it is possible to manufacture a label sheet with a cleaning function that can be reliably conveyed inside and that can easily and reliably remove foreign substances adhering to the inside of the apparatus.
[Brief description of the drawings]
FIG. 1 is a partial plan view showing an example of a label sheet with a cleaning function obtained in the present invention.
FIG. 2 is a cross-sectional view taken along line aa in FIG.
[Explanation of symbols]
1: Separator, A: Label for cleaning function, 2: Support, 3: Cleaning layer, 4: Release film, 5: Normal adhesive layer

Claims (5)

On one side of the support, a cleaning layer obtained by polymerizing and curing a curing type adhesive that is activated and cured by receiving active energy is provided with the surface protected by a release film . With a cleaning function, a plurality of cleaning labels provided with a pressure-sensitive adhesive layer are provided in a state where they can be continuously peeled apart from each other on a long separator via the normal pressure-sensitive adhesive layer. In the manufacturing method of a label sheet, the manufacturing method of the label sheet with a cleaning function characterized by performing the sheet punching process for making it into a label shape after the polymerization hardening reaction of the adhesive of a cleaning layer. 2. The method for producing a label sheet with a cleaning function according to claim 1, wherein the tensile elastic modulus (according to test method JIS K7127) of the cleaning layer at the time of punching the sheet into a label shape is 10 MPa or more. The cleaning layer is obtained by polymerizing and curing a pressure-sensitive adhesive polymer, a polymerizable unsaturated compound having at least one unsaturated double bond in the molecule, and a polymerization initiator with active energy. The method for producing a label sheet with a cleaning function according to claim 1, wherein   4. The method for producing a label sheet with a cleaning function according to claim 3, wherein the pressure-sensitive adhesive polymer is an acrylic polymer having (meth) acrylic acid and / or (meth) acrylic acid alkyl ester as a main monomer. . 4. The production of a label sheet with a cleaning function according to claim 3, wherein the polymerization initiator is a photopolymerization initiator, and the cleaning layer is a layer obtained by polymerizing and curing a photocurable pressure-sensitive adhesive by ultraviolet irradiation. Method.

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