TW201215931A - Color filter member for electronic paper, electronic paper, and manufacturing method thereof - Google Patents

Abstract

A main object of the present invention is to provide a color filter member for an electronic paper which can provide good color display properties when the member is used for an electronic paper. The object is attained by providing a color filter member for an electronic paper which is used for an electronic paper. The electronic paper comprises two substrates facing each other and a displaying medium layer disposed between the two substrates, in which at least one of the two substrates is transparent and the displaying medium layer is used for displaying the predetermined information. The color filter member for an electronic paper of the present invention comprises a color filter base material, a color filter layer formed on one surface side of the color filter base material and having plural color layers, and a barrier layer provided to at least one surface side of the color filter base material.

Description

201215931 VI. Description of the Invention: [Technical Field of the Invention] Obtaining a Good Color Display The present invention relates to a color filter member for electronic paper which can be characterized when used in electronic paper. [Prior Art] In recent years, research on media, called e-paper, ^, n., , w & media has been carried out. The medium is connected to the substrate, such as microcapsules, etc., which are connected to the substrate, such as 4, 4 (fe. ^ · '', Beibu " quality and electrical display switching, in addition to low power consumption, ^ distortion In addition to the excellent characteristics such as flexibility, thinness, and lightness, it also has the characteristics of being rewritable, and is being put into practical use as a means for performing color display on the above-mentioned electronic paper, and the medium itself is colored. However, the method is intermediate In the other hand, a method of using a same color filter as a liquid crystal display is known (for example, refer to Patent Document No. 3). And the appropriate composition of the electronic paper for obtaining good color display characteristics, and the design of the electronic and dichroic filter members for obtaining good color display characteristics is not clearly defined. 'Previous technical literature】 [ [Patent Document] Patent Document i 曰 专利 专利 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 SUMMARY OF THE INVENTION PROBLEMS TO BE SOLVED BY THE INVENTION The present invention has been made in view of the above circumstances, and its main object is to provide a color for electronic paper which can obtain good color display characteristics when used in electronic paper. In order to achieve the above object, the present invention provides a color filter member for an electronic paper, which is used for disposing a display medium between two substrates which are transparent to at least one of the substrates. a layer, wherein the display medium layer displays the predetermined information in the electronic paper, characterized by: a color filter substrate; a color filter layer formed on one surface side of the color filter substrate, and having a plurality of color layers; and a barrier layer disposed on at least one surface side of the color filter substrate. According to the present invention, since it is a color filter member for an electronic paper including a barrier layer, it is used for electronic paper. In this case, the display medium of the electronic paper can be protected from moisture or oxygen, and the electronic paper having excellent color display characteristics can be obtained. Preferably, the optical functional layer or the surface protective layer is disposed on the outermost surface opposite to the side on which the display portion on which the electronic paper is disposed. The reason is that the color filter member for electronic paper of the present invention is used for electronic In the case of paper, the visibility can be improved by including an optical functional layer, and the surface of the electronic paper can be prevented from being damaged and contaminated by the surface covering 100121750 5 201215931. In the above invention, the touch panel layer can be opposed to The color filter substrate and the color light-receiving layer are disposed on the opposite side of the side on which the display portion on which the electronic paper is disposed, and the touch panel layer is included in the color filter member for electronic paper according to the present invention. In the case of electronic paper, electronic paper with high convenience in inputting information by direct contact with the face can be obtained. In the above invention, the transparent electrode layer may be disposed on the side on which the display portion on which the electronic paper is placed, with respect to the color light guide sheet substrate. In the above invention, the display medium layer can be disposed on the side of the counter electrode substrate on which the electronic paper is disposed, with respect to the transparent electrode layer. Moreover, the present invention provides an electronic paper comprising: a color filter member for an electronic paper, comprising a color filter substrate, formed on one surface side of the color filter substrate, and having a plurality of color layers. a color filter layer; and a barrier layer disposed on at least one surface side of the color filter substrate; a transparent electrode layer; a display dielectric layer; and a counter electrode substrate including the opposite substrate and the pair a counter electrode layer on a substrate; wherein the electronic paper color filter member is disposed on one surface of the electronic paper, and the counter electrode substrate is disposed on the other of the electronic paper a surface of the transparent electrode layer disposed on the counter electrode substrate side with respect to the color filter substrate, wherein the display medium layer is disposed on the counter electrode substrate side with respect to the transparent electrode layer, and the counter electrode layer is opposite to the counter electrode layer The opposite substrate is disposed on the display medium layer side. 100121750 6 201215931 Since the use of the color filter component for electronic paper containing the barrier layer, the company has been able to make electronic paper with excellent color display characteristics by being affected by moisture or oxygen. Moreover, the % color light-receiving member for electronic paper used in the present invention can reduce the number of substrates constituting the layer, because the electronic paper can be thinned, and the optical characteristics of the electronic paper can be improved by reducing the number of interfaces. . Further, the present invention provides a method of manufacturing a color light-passing sheet member for an electronic paper, comprising the steps of forming a color filter for an electronic paper, and a member for forming a light sheet; the coloring of the electronic paper; Volume versus age. u t. The color filter member for electronic paper is formed by a color filter member having a color filter and a light substrate, and is formed on one surface side of the color light-emitting sheet substrate and has a plurality of a color filter of the colored layer, a light sheet layer, and a barrier layer disposed on at least one surface side of the color filter and the light sheet substrate. According to the present invention, it is possible to obtain a color filter member for electronic paper having high productivity by forming a color filter member for electronic paper which does not require the positional accuracy of each constituent layer by the roll-to-roll method. In the above invention, the step of forming the color filter member for the electronic paper is preferably performed by aligning the touch panel layer by vacuum in a sheet-to-sheet manner or by using a touch panel. The step of laminating the touch panel layer by layer-by-layer lamination. In the case where the color filter and optical sheet member for electronic paper manufactured by the present invention includes a touch panel layer, it is necessary to align the touch panel layer with the color filter layer by stacking layers of the touch panel 100121750 7 201215931 The alignment is adjusted in abrupt manner, so that a color filter member for an electronic paper having a touch panel function and having good color display characteristics for electronic paper can be obtained. Moreover, the present invention provides a method of producing an electronic paper, comprising: a color filter member forming step for electronic paper, wherein the color filter member for electronic paper is formed by a roll-to-roll method; The color filter member forming step for the electronic paper is disposed in the color filter member for the electronic paper, and the display medium layer is disposed on the color filter member for the electronic paper with the transparent electrode layer interposed therebetween a surface forming method comprising a transparent electrode layer and a display medium layer to form a color filter member for an electronic paper with a display portion; and a bonding step of coloring the electronic paper with the display portion a filter member and a counter electrode substrate having a counter substrate and a counter electrode layer formed on the counter substrate, wherein the counter electrode layer is disposed on the counter substrate with respect to the counter substrate The portion of the display medium layer side of the color filter member for electronic paper is aligned and bonded under vacuum by a sheet-to-sheet method. According to the present invention, a color filter member for an electronic paper which does not require high positional accuracy of each constituent layer is formed by a roll-to-roll method, and is subjected to vacuum alignment bonding using a sheet-to-sheet method to perform the necessary precision. The color filter member for electronic paper attached to the display portion and the counter electrode substrate are bonded to each other, whereby electronic paper having high productivity can be obtained with high precision. Further, by using the above-described color filter member for electronic paper, an electronic paper excellent in color display characteristics can be obtained. 100121750 8 201215931 (Effect of the Invention) In the present invention, an effect of obtaining good color display characteristics for use in electronic paper is exhibited. [Embodiment] Hereinafter, a color filter member for electronic paper, an electronic paper, a method for producing a color filter member for electronic paper, and a method for producing an electronic paper according to the present invention will be described in detail. A. Color filter member for electronic paper First, the color filter member for electronic paper of the present invention will be described. The color filter member for an electronic paper according to the present invention is characterized in that the display medium layer is disposed between two substrates which are transparent to at least one of the two substrates, and the display medium layer displays predetermined information in the electronic paper. a color filter substrate; a color filter layer formed on one surface side of the color filter substrate and including a plurality of color layers; and a barrier layer disposed on the color filter substrate At least one surface side. The color filter member for electronic paper of the present invention will be described with reference to the drawings. Fig. 1 is a schematic cross-sectional view showing an example of a color filter member for an electronic paper according to the present invention. The color filter member 10 for electronic paper illustrated in FIG. 1 includes a color filter substrate 1 and a color filter layer 2 which is formed on one surface side of the color filter substrate 1 and includes a plurality of colors. The layers (2R, 2G, 2B) and the barrier layer 3 are disposed on the surface side of the color filter substrate 1 on which the color filter layer 2 is not formed. In FIG. 1, the barrier layer 3, the color filter 100121750 9 201215931, the light sheet substrate 1, and the color filter layer 2 are laminated in this order, and the electronic paper color filter member 10 shown in FIG. 1 is used for the electrons. In the case of paper, the display portion of the electronic paper is placed on the side of the color filter layer 2. According to the present invention, since it is a color filter member for an electronic paper including a barrier layer, it can protect the display portion of the electronic paper from moisture or oxygen or the like in the case of electronic paper, thereby obtaining excellent color display characteristics. Electronic paper. Hereinafter, each configuration of the color filter member for electronic paper of the present invention will be described. 1. Color filter layer The color filter layer used in the present invention is formed on one surface side of a color filter substrate and includes a plurality of color layers. In addition, the term "formed on the surface side of one side of the color filter substrate" means not only the case where it is formed directly on one surface of the color filter substrate but also the color filter formed by the other layer. The concept of a situation on one of the surface of a sheet substrate. The plurality of color layers included in the color filter layer are not particularly limited as long as they can exhibit a desired color when the electronic paper is produced using the color filter member for electronic paper of the present invention, and can be used. Colored layers of various colors used in general color filters. Among them, in the present invention, a coloring layer containing a plurality of the three colors of red (R), green (G), and blue (B) is usually used. The plurality of color layers used in the present invention are usually formed into a pattern in a manner of a plurality of color rules 100121750 10 201215931. The color used in the present invention is particularly limited, and the color of the electronic paper according to the present invention can be used. The use of the optical sheet member is appropriately selected. Examples of such a reversal include a stripe type, a smear type, a triangle type, and a 4-pixel arrangement type. Further, the area of each of the colored layers is not particularly limited, and the resolution of the electronic paper in which xe is made by using the color filter member of the turtle is appropriately adjusted. The material of the colored layer described above can be the same as that of the user of the color layer of a general color calender, and therefore the description herein is omitted. The thickness of the coloring layer used in the present invention is not particularly limited as long as it can display a good image when the color light-receiving sheet member for electronic paper of the present invention is used for electronic paper, but is not particularly limited. W can be set within the range of 〇.5 _ ~3·0. Further, the method of forming the colored layer is not particularly limited as long as it is a method of forming a color layer which can be formed without color mixing. Method: A generally known method such as photolithography or ink jet method can be used. The color light-receiving sheet layer used in == has at least the above-mentioned colored layer, but it is also possible to have a configuration other than the above-described colored layer, and it is not particularly limited. Any other function can be used as the other use or the like described above. A color-type glazing sheet member The above-mentioned other configuration is exemplified by a light-shielding portion or the like which is formed separately. The above-mentioned light shielding portion 2 is the same as the user between the respective colored layers, and thus the description thereof is omitted. In the general color light-emitting sheet, 100121750 201215931 2. Color filter substrate The color light-emitting sheet substrate used in the present invention is a color enamel member for the electronic paper. The light-film base material is not particularly limited as long as it has desired transparency, and the same as the transparent base material used in a general color light-receiving sheet can be used. The light-transmitting sheet substrate used in the present invention preferably has a transmittance in the visible light region of 8 G% or more, more preferably 9 % by weight or more. The reason for this is that when the color ray-receiving sheet member for electronic paper of the present invention is used for electronic paper in the above range, the display brightness can be prevented from being lowered. Here, the transmittance of the 'color filter substrate' can be measured by JIS K736m (Test Method for Total Light Transmittance of Plastic-Transparent Materials). The color filter substrate used in the present invention may be a transparent substrate that does not have flexibility such as a glass substrate, or a flexible substrate that has a transparent property such as a resin film substrate. material. Among them, in the present invention, it is preferred to use a transparent flexible substrate. The reason for this is that the color light-emitting sheet member for electronic paper of the present invention can be produced by a roll-to-roll method by using a transparent flexible substrate. Examples of the resin film-forming substrate include polyethylene terephthalate (PET), polyethylene terephthalate (PEN), and polyether stone (PES).

Poly(ether sulfones), Polyimide (PI, Polyimide), Polyether Ether Ketone (PEEK), Polycarbonate (Pc, 100121750 12 201215931)

Polycarbonate), Polyethylene (PE, Polyethylene), Polypropylene (PPS), Polyphenylene Sulfide (PPS), Polyetherimide (PEI), Cellulose Triacetate (CTA, Cellulose triacetate) ), COP (Cyclic Polyolefin), Polymethyl Methacrylate (PMMA), Polysulfone (PSF, Polysulfone), Polyamidamine (PAI, Polyamide-) Imides) * The film of etc. Further, in the present invention, as described below, a thin plate glass having flexibility and barrier properties may be used as the color filter substrate. The thickness of the color filter substrate used in the present invention is not particularly limited as long as the use of the color filter member for an electronic paper according to the present invention is adjusted. Specifically, the thickness of the color filter substrate is preferably in the range of 10 (four) to 500. The reason is that if the thickness of the color slab substrate is too thin, there is a problem in strength. If the thickness of the color filter substrate is too thick, it is difficult to refer to the electronic _ color filter member of the present invention. The electronic paper is made into a thin information display panel. 3. Barrier layer • The present barrier layer is disposed on at least the color® light wire material. The surface side is used for the electronic color paper sheet member of the present invention for electricity and protection. The display portion is protected from moisture or oxygen. In addition, the term "disposed on at least one surface side of the color filter substrate" means not only the case where it is disposed directly on at least the surface of the color filter substrate, but also includes other layers. The concept of a situation where it is disposed on at least one surface of a color filter substrate. The barrier layer layer used in the present invention is disposed on the surface side of the color filter substrate on which the color filter layer is formed, and may be disposed on the surface of the color filter substrate on which the color filter layer is not formed. side. The material of the barrier layer used in the present invention may be any one that exhibits barrier properties against moisture or oxygen, and may be, for example, yttrium oxide, tantalum nitride, tantalum carbide, titanium oxide, or oxidation. Antimony, indium oxide, zinc oxide tin oxide, oxidized sulphur, oxidized, oxidized, oxidized, and oxidized, etc., but cerium oxide is usually used. . The thickness of the barrier layer is not particularly limited as long as it exhibits a barrier property, and is appropriately selected depending on (4) or permeation of the barrier (4). Specifically, the thickness of the barrier layer is preferably in the range of from 10 nm to 3 nm. The reason is that the thickness of the barrier layer is too thin, and it is difficult to obtain the desired barrier. The other aspect is that if the thickness of the barrier layer is too thick, the barrier layer may be broken and the barrier layer may be damaged. The method for forming the barrier layer to be formed by the present invention is exemplified by a hot-dip galvanizing method or a CVD 'Chemical Vapor Deposition method. The barrier layer used in the present invention can be disposed separately on at least the surface side of the color filter substrate, and can also be disposed in color in the form of a barrier layer laminated body having a barrier layer formed on the barrier layer substrate.泸, light sheet substrate at least - 100121750 201215931 surface side. As the barrier layer substrate used in the present invention, the same color as the above-mentioned color-sensitive sheet substrate can be used. The thickness of the barrier layer substrate is not particularly limited as long as it can support the barrier layer, but is preferably in the range of 5 //m to 500. Further, the barrier layer laminate is usually bonded to the color filter layer or the color filter substrate by using an adhesive layer containing an adhesive. The adhesive layer may be formed on the barrier layer side of the barrier layer laminated body or on the barrier layer substrate side of the barrier layer laminated body. The adhesive material may be any one that can be cured with a desired strength, and examples thereof include a polycarbonate resin, a polyolefin resin, an acrylic resin, an amine ruthenate resin, and a polycondensation. An oxygen-based resin, a polyester resin, an epoxy resin, or the like is preferable, and among them, an acrylic resin is preferable. Further, the thickness of the adhesive layer is not particularly limited as long as it can be bonded without peeling the barrier layer laminate. Specifically, it can be set within the range of 5 #in to 5〇 em. As the barrier layer used in the present invention, a thin plate glass having a thickness of 150 // m or less can be used. It is not necessary to form a barrier layer by using a thin plate glass. Further, since the thickness of the thin plate glass is 15 Å or less, it can be laminated by a roll-to-roll method. As the thickness of the thin glass, as long as it is 15G //ni or less, wherein k is preferably in the range of 2Q _~12G _, more preferably in the range of 50 #m~100" m. For example, lime-lime glass, non-test glass, quartz glass, etc. may be used, among which alkali-free glass is preferred. 100121750 15 201215931 When the above-mentioned thin glass is used as the barrier layer shape used in the present invention, since the above-mentioned thin glass can be used The function of the color filter base chair is the same as that of the color filter member for electronic paper of the present invention, and the thickness of the color filter substrate can be reduced by μ, or the color filter substrate can be replaced. In the present invention, the color filter layer is preferably disposed on the outermost surface on the side where the electrons and the display portion are disposed. The reason is that the color 2, ' The display portion of the sheet of the film is close to each other, and the display characteristics of the electronic paper using the color paper "== of the electronic paper of the present invention can be made good. In the case where the color filter has the outermost surface on the side of the display portion of the electronic paper, the placement order of the substrate and the barrier layer is placed. I-color filter Another aspect is that the barrier layer is disposed on the most surface of the disposed surface, and the __ portion is protected from impurities caused by the color-display portion. The layer formed by the layer of the color light-receiving sheet member for the electronic paper produced by the light sheet layer can be classified into the following three aspects: the shape of the self-layer containing only the barrier layer includes the barrier layer layer (the barrier layer and (4) The layer (the first aspect) and the sheet containing the thin glass (the second day) (3rd (4th). Hereinafter, the various aspects are described. (1) The first aspect 100121750 The color system of the invention uses only the barrier as the barrier layer and does not include the barrier layer substrate. === 201215931 The specific layer structure of this aspect, as illustrated in Fig. 1, can be the barrier layer 3, the color filter The order of the light-substrate substrate color filter layer 2, although not shown, may be the order of the color filter moon substrate, the barrier layer, and the color calender layer, = may be a color filter substrate The order of the color filter moon layer and the barrier layer. Further, the left side is the side that becomes the outermost surface of the electronic paper, and the right side is the side where the display portion of the electronic paper is disposed. In this case, as described above, the color layer Preferably, it is disposed on the outermost surface of the side on which the display portion of the electronic paper is disposed. Further, in this aspect, there is also a barrier As a layer of the layer, as a layer structure at this time, it may be a barrier layer, a barrier layer, (and thus a plurality of barrier layers), a color/lighting substrate, a color filter, and a light layer. The order of the barrier layer, the color glazing substrate, the barrier layer, and the color filter layer may also be a color filter substrate, a color grading sheet layer, a barrier layer, a barrier layer, and (in other cases, a barrier layer) Further, in order to improve the adhesion, a fixing layer can be formed between the barrier layer and the underlying layer. (2) The second aspect/the present invention is the layer of the color grading member for the electronic paper. The second layer is a layer of the early wall layer (the barrier layer and the barrier layer substrate) as a barrier layer. As a specific layer structure of this aspect, as exemplified in FIG. 2, the barrier layer 3 may be used. The order of the barrier layer base material 3, the adhesive layer 4, the color calender sheet base material, and the shirt color calender sheet layer 2 may be a barrier layer substrate, a barrier layer adhesion layer, or a color filter, although not shown. The order of the light film substrate and the color filter layer. Further 100121750 201215931 The left side is the surface of the electronic paper. The right side is the side on which the display portion of the electronic paper is placed. In addition, the 'village (four) (four) color is arranged with a barrier layer layered body on the side of the color calender sheet. In this case, the barrier layer layer body can be arranged in the color it. The light sheet is reduced and colored. The light layer layer can be disposed between the color filter substrate and the barrier layer laminate, and the stacking order of the barrier layer and the barrier layer substrate in the barrier layer laminate is not limited. In this aspect, the color cyan sheet layer is preferably disposed on the most surface of the display portion on which the electronic paper is disposed. The second embodiment shows the electronic paper of the present invention. In the schematic cross-sectional view of another example of the color member, the reference numeral (not shown in Fig. 2) is the same as that of Fig. i, and therefore the description herein is omitted. In this aspect, the barrier layer is also a plurality of layers. . The layer configuration at this time may be, for example, a barrier layer, a barrier layer, (and thus a plurality of barrier layers), a barrier layer substrate, an adhesive layer, a color calender substrate, or a color filter layer. The order of the barrier layer, the barrier layer substrate, the barrier layer, the adhesive layer, the color filter substrate, and the color filter layer. Further, a fixing layer can be formed between the barrier layer and the underlayer to improve adhesion. (3) Third aspect The third aspect of the layer constitution of the color filter member for electronic paper according to the present invention includes a sheet glass as a barrier layer. Further, in this aspect, the two aspects of the sheet glass as the color (four) sheet substrate and the sheet glass not serving as the color sheet substrate can be listed. As a specific layer structure of the former, as shown in Fig. 3, it can be exemplified that the color filter layer 2 is formed on the thin glass 3". On the other hand, the specific layer configuration of the latter is not shown in the drawings. However, it is exemplified that the (10) layer is provided with a color filter substrate, a color filter, and a light layer. In this case as well, in the same manner as the above second aspect and the second aspect, the color calender sheet layer is preferably the outermost surface on the side of the word portion of the f-paper. In addition, FIG. 3 is a schematic cross-sectional view showing another example of the "child" and (10) color-type light-reeling sheet member, and the same reference numeral is used. Therefore, the other components constituting the present invention. When the paper (four) color material is to be at least coated with the calender substrate, the color calender layer, and the barrier layer, it is possible to add a necessary structure as appropriate. The following is a description of the composition: (1) Optical In the functional layer; in the middle of the month, the optical functional layer is preferably disposed on the opposite side to the side on which the electrons are disposed **:: the reason is that the electronic paper of the present invention is used by including the two-two The thin film member for electronic paper can also serve as the next two high visibility. In addition, in the present invention, the optical functional layer I is a layer of the surface protective layer described below. A schematic cross-sectional view of a color filter for electronic paper of a layer. In Fig. 4, an optical function screen 5 100121750 19 201215931, a barrier layer 3, a color filter substrate 1, and a color filter layer 2 are laminated in this order. When the color filter member 10 for electronic paper shown in FIG. 4 is used for electronic paper, Yu Cai The display portion of the electronic paper is disposed on the color filter layer 2 side. Further, the symbols not shown in FIG. 4 may be the same as those in FIG. 1, and thus the description thereof is omitted. The optical functional layer used in the present invention may be It is disposed separately on the outermost surface of the color filter member for electronic paper and on the side opposite to the side on which the display portion on which the electronic paper is disposed, and can also form an optical function of the optical functional layer on the optical functional layer substrate. The layered layer is disposed on the outermost surface of the color filter member for the electronic paper opposite to the side on which the display portion of the electronic paper is disposed. The optical functional layer substrate used in the present invention can be used and used. The thickness of the optical function layer substrate is not particularly limited as long as it can support the optical function layer, but is preferably in the range of 10 /zm to 500 μm. The optical functional layer laminate is usually formed by bonding an adhesive layer containing an adhesive to the optical functional layer substrate side. As the adhesive, the same adhesive material as the above-mentioned adhesive can be used. The film thickness is not particularly limited as long as it can be bonded without peeling off the optical functional layer laminate, and is the same as the above-described other adhesive layer. The color filter member for electronic paper of the present invention contains an optical functional layer. In the case of the above-described layer structure of the color filter member for electronic paper, it can be listed as follows: 100121750 20 201215931. The left side is the side that becomes the outermost surface of the electronic paper, and the right side is the side where the display part of the electronic paper is disposed. • Optical functional layer, barrier layer, color filter substrate, color filter layer • optical functional layer, color filter substrate, barrier layer, color filter layer • optical functional layer, color filter Substrate, color filter layer, barrier layer ^ • optical functional layer, optical functional layer substrate, adhesive layer, barrier layer, color calender substrate, color filter, optical layer, optical functional layer, optical functional layer Substrate, adhesive layer, color filter substrate, barrier layer, color filter layer, optical functional layer, optical functional layer substrate, adhesive layer, color filter substrate, color filter layer, Wall layer • Optical function layer, barrier layer, barrier layer substrate, adhesive layer, color filter substrate, color filter layer • optical function layer, barrier layer substrate, barrier layer, adhesive layer, color filter Substrate, color filter layer, optical function layer, color filter substrate, color filter layer, adhesive layer, barrier layer, barrier layer substrate _ • optical functional layer, color filter substrate, color Filter layer, adhesive layer, barrier layer substrate, barrier layer, optical functional layer, optical functional layer substrate, adhesive layer, barrier layer, barrier layer substrate, adhesive layer, color filter substrate, color filter Sheet • Optical functional layer, optical functional layer substrate, adhesive layer, barrier layer substrate, 100121750 21 201215931 barrier layer, adhesive layer, color filter substrate, color filter layer, optical functional layer, optical functional layer Substrate, adhesive layer, color filter substrate, color filter layer, adhesive layer, barrier layer, barrier layer substrate, optical functional layer, optical functional layer substrate, adhesive layer, color filter substrate, Color filter layer, adhesive , barrier layer substrate, barrier layer, optical functional layer, thin glass, color filter layer, optical functional layer, thin glass, adhesive layer, color filter substrate, color filter layer, optical functional layer, optics Functional layer substrate, adhesive layer, thin plate glass, color filter layer, optical functional layer, optical functional layer substrate, adhesive layer, thin glass, adhesive layer, color filter substrate, color filter layer In other cases, it is preferable that a color filter layer is disposed on the outermost surface of the side on which the display portion of the electronic paper is disposed. Further, in each layer configuration, a layer structure in which an adhesive layer is provided on the side where the display portion of the electronic paper is placed may be used. Examples of the optical functional layer used in the present invention include an antiglare layer, an antireflection layer, a low reflection layer, and a peep prevention layer. Among them, an antiglare layer and an antireflection layer are preferable. Hereinafter, the antiglare layer and the antireflection layer will be described. (1) Anti-glare layer (anti-glare layer) The anti-glare layer used in the present invention has an anti-glare property. The antiglare layer exhibits antiglare property, for example, because the surface has irregularities or internal scattering properties, and the contrast at the bright 100121750 22 201215931 can be improved. Further, since the anti-glare layer is contained, when the color filter member for electronic paper of the present invention is used for electronic paper, generation of glare or the like can be suppressed. As the antiglare layer, a known antiglare layer can be used. For example, it can be the same as that described in Japanese Laid-Open Patent Publication No. 2010-44311, and the description herein is omitted. The average film thickness of the antiglare layer is preferably in the range of 1 μm to 10 //m. (ii) Antireflection layer (antireflection layer) The antireflection layer used in the present invention has a mirror surface which prevents light from coming out of the surface of the electronic paper when the color light-reel sheet member for electronic paper of the present invention is used for electronic paper. The function of reflecting the background, whitening the image, and reducing the contrast of the image. As the antireflection layer, a known antireflection layer can be used, for example, as described in Japanese Patent Laid-Open Publication No. 2008-249882, and the like. (2) Surface protective layer In the present invention, the surface protective layer is preferably disposed on the outermost surface opposite to the side on which the display portion on which the electronic paper is disposed. # By including a surface layer, when the electronic color filter and the light sheet of the present invention are constructed on an electronic paper, damage and contamination of the surface of the electronic paper can be prevented. Further, in the present invention, the surface protective layer may be a layer which also serves as the above optical functional layer. Fig. 5 is a schematic cross-sectional view showing an example of a color filter for electronic paper on which such a surface protective layer is formed. In FIG. 5, the surface protective layer 6, the P early soil layer 3, the color filter, the light sheet substrate 1, and the color light-passing sheet layer 2 are laminated in the order of 100121750 23 201215931 for the electronic paper shown in FIG. When the filter member 1 is used for an electronic paper, the display portion of the electronic paper is disposed on the side of the coloring layer 2; Further, since the symbols not shown in Fig. 5 can be the same as those in Fig. 1, the description herein is omitted. The surface protective layer used in the present invention may be separately disposed on the opposite side of the side of the display portion on which the electronic paper is disposed on the color filter member for electronic paper, and may be formed on the surface of the protective layer substrate. The form of the surface protective layer laminate of the recording surface protective layer is disposed on the side opposite to the side on which the display portion of the electronic paper is disposed on the color light-receiving sheet member for electronic paper. As the surface protective layer substrate of the present invention, the ruthenium can be made the same as the above-mentioned color filter substrate. As the thickness of the surface protective layer substrate, it is only necessary to support the surface layer, and the position is not limited, specifically, it is preferably in the range of 10 //m~500 "m. Further, the above-mentioned surface protective layer laminate is usually formed by adhering an adhesive layer containing an adhesive to the surface of the surface protective layer substrate. As the adhesive, the same as the above-mentioned adhesive can be used. The film thickness of the pressure-sensitive adhesive layer is not particularly limited as long as it can be bonded without peeling off the surface protective layer laminate, and is the same as the other adhesive layer. The electronic paper (four) color light-emitting member of the present invention comprises a layer of a color light-receiving sheet member for an electronic paper when the surface protective layer comprises a surface protective layer, and can be formed by the electronic paper layer of the above-mentioned "〇" optical Wei layer (4). In the layer structure of the pure t-ray member, the optical functional layer is exemplified as the surface protective layer, and therefore the description of this is omitted in the description of 100121750 24 201215931. The surface protective layer used in the present invention may, for example, be a hard coat layer, an antifouling layer, an antistatic layer or an antibacterial layer. Among them, a hard coat layer and an antifouling layer are preferable. Hereinafter, the hard coat layer and the antifouling layer will be described. (1) Hard coat layer The hard coat layer used in the present invention is a layer having a function of imparting abrasion resistance to the color filter member for electronic paper of the present invention. As the hard coat layer, a known hard coat layer can be used. For example, it can be the same as those described in JP-A-2010-44311, and the description herein is omitted. In addition, the term "hard coat layer" generally means a hardness of "H" or more in the pencil hardness test prescribed in JIS 5600-5-4 (1999). Among them, the hardness of the surface of the hard coat layer is preferably "3H" or more. (ii) Antifouling layer The antifouling layer used in the present invention is a layer which is provided to prevent dust or contamination from adhering, or which is easily removed by adhesion of dust. In the present invention, a known antifouling layer can be used. The antifouling layer can be formed by coating an antifouling agent extremely thin and drying it. Examples of the antifouling agent include a surfactant such as a fluorine-based surfactant, a coating material containing a fluorine-based resin, a release agent such as a polyoxygenated oil, or a wax. In the present invention, the antifouling layer may be provided separately from the hard coat layer, but the antifouling layer may be formed by adding the above antifouling agent to the hard coat layer. Among them, since the cost can be reduced, it is preferable to form an antifouling layer by adding an antifouling agent to the hard coat layer. 100121750 25 201215931 As the film thickness of the antifouling layer, it is preferably within a range of 1 nm to 3 〇 nm. The reason for this is that if the film thickness of the antifouling layer exceeds the above range, there is a possibility of optical influence. In the present invention, the touch panel layer is disposed on the side of the display portion on which the electronic paper is disposed, with respect to the color filter material and the color filter layer. side. Since the touch panel layer is included, when the electronic paper _ color filter member of the present invention is used for electronic paper, electronic paper having high convenience in inputting information by direct contact with the paper can be obtained. . The touch panel layer used in the present invention is usually laminated using an adhesive layer comprising an expansive material. The adhesive layer may be formed on one side of the touch panel layer or on both sides. As the adhesive material, the same as the above-mentioned adhesive material can be used. The film thickness of the above-mentioned adhesive layer is not particularly limited as long as it can be bonded without peeling off the touch panel layer, and is the same as the above-described other adhesive layer. (1) Types of touch panel layers As the touch panel layer used in the present invention, various methods such as a resistive film method, a valley method, an optical method, an electromagnetic induction method, and an ultrasonic method can be used. The touch panel of the il1 film type has a gap formed on the electrode surface formed on the substrate and is configured to face each other. When pressed by a finger or a pen or the like, the substrate changes the electrode to contact. The input point is detected by applying a voltage and reading the potential gradient of the contact. The structure of the touch panel layer of the resistive film type is the same as that described in, for example, Japanese Patent Laid-Open No. Hei. No. Hei. No. Hei. No. 2003-307723, the entire disclosure of which is hereby incorporated by reference. The capacitive touch panel detects the input point by changing the capacitance by the contact of the finger material with the panel. Although there are a plurality of methods, the configuration in which the projection type is an electrode in which a dielectric is inserted and patterned into a matrix is formed by a voltage change caused by the capacitance of each electrode. The configuration of the capacitive touch panel layer can be, for example, the one disclosed in Japanese Patent No. 2003-5U799 (4). Therefore, the position of the touch panel layer is used as the touch panel layer. The arrangement position is not particularly limited as long as it is disposed on the side opposite to the side on which the display portion on which the electronic paper is disposed with respect to the color light guide substrate and the color filter layer. However, the color filter for electronic paper of the present invention is used. In the case where the sheet member includes at least one of an optical functional layer and a surface protective layer, the touch panel layer is disposed on a lower side than the layers. The layer configuration of the color filter member for an electronic paper when the color filter member for an electronic paper according to the present invention includes a touch panel layer is exemplified by the above-described color paper for electronic paper that does not include the touch panel layer. The layer structure of the component, the touch panel layer is disposed on the outermost side of the color filter layer and the barrier layer, and the touch panel layer is disposed between the color filter layer and the barrier layer. Kind of appearance. Further, in the case where the color filter for an electronic paper of the present invention and the optical sheet member include an optical functional layer or a surface protective layer, the layers are disposed on the outermost surface of the above-described aspect. 100121750 27 201215931 FIG. 6 is a schematic cross-sectional view showing an example of a color filter member for an electronic paper on which a touch panel layer is formed. In FIG. 6, the optical functional layer 5 (or the surface protective layer 6), the touch panel layer 7, the barrier layer 3, the color filter substrate 1, and the color filter layer 2 are laminated in the order of FIG. When the color filter member 10 for electronic paper shown is used for electronic paper, the display portion of the electronic paper is disposed on the side of the color filter layer 2. Further, the outermost surface of the color filter member 10 for electronic paper illustrated in Fig. 6 may be the optical functional layer 5 or the surface protective layer 6. In addition, since the symbol which is not illustrated in FIG. 6 is the same as that of FIG. 1, the description here is abbreviate|omitted. (4) Transparent Electrode Layer In the present invention, the transparent electrode layer can be disposed on the side on which the display portion on which the electronic paper is disposed, with respect to the above-described color filter substrate. The material of the transparent electrode layer used in the present invention is not particularly limited as long as it is a conductive material capable of forming a transparent electrode. For example, indium tin oxide (ITO, Indium Tin Oxide) or indium oxide (ITO) can be used. Indium Zinc

Oxide), tin oxide, zinc oxide, indium oxide, aluminum oxide (AZ〇, Aluminuin)

Conductive oxides such as Doped Zinc 〇xide), metals such as Au and ruthenium, conductive south molecules such as polyphenylamines, polyphenylene blocks, ketone derivatives, and poly-derivatives, etc. Use ITO. The thickness of the transparent electrode layer used in the present invention is not particularly limited as long as it can be used as a transparent electrode layer, and it is preferably in the range of 15 nm to 200 Å. The reason is that when the thickness of the transparent electrode layer is less than the above range of 100121750 28 201215931, it is difficult to form a transparent electrode layer with a uniform thickness. When the thickness of the transparent electrode layer exceeds the above range, the transparent electrode layer is formed into a film. Since the time and materials used are increased, the manufacturing cost becomes high. The method for forming the transparent electrode layer used in the present invention is not particularly limited as long as it can form a transparent electrode layer with a desired thickness. As a method of forming such a transparent electrode layer, a general film formation method of an electrode can be used, and examples thereof include a physical vapor deposition (PVD) method such as a vacuum deposition method, a sputtering method, and an ion plating method. , a CVD method, or a method of coating a conductive paste, or the like. Further, the transparent electrode layer may be formed entirely on the surface of the substrate or the substrate, or may be formed in a pattern on the surface of the substrate or the substrate. The transparent electrode layer used in the present invention may be disposed on the side on which the display portion on which the electronic paper is disposed, with respect to the color filter substrate alone, or may be formed with a transparent electrode layer on the transparent electrode layer substrate. The form of the transparent electrode layer laminate is disposed on the side on which the display portion on which the electronic paper is disposed, with respect to the color filter substrate. As the transparent electrode layer substrate used in the present invention, the same color as the color filter substrate described above can be used. The thickness of the transparent electrode layer substrate is not particularly limited as long as it can support the transparent electrode layer, but is preferably in the range of 10 to 500. Further, the above-mentioned transparent electrode layer laminate is usually formed and bonded to an adhesive layer containing an adhesive. The dot layer may be formed on the transparent electrode layer side of the transparent electrode layered body, or may be formed on the transparent electrode layer substrate side of the transparent electrode layered body. As the adhesive material, the same as the above-mentioned adhesive material can be used. The thickness of the adhesive layer is not particularly limited as long as it can be bonded without peeling off the transparent electrode layer laminate, and is the same as the above-described other adhesive layer. The arrangement position of the transparent electrode layer is not particularly limited as long as it is disposed on the side on which the display portion on which the electronic paper is disposed with respect to the color filter substrate, and is preferably disposed on the display portion on which the electronic paper is disposed. The outermost surface of the side. This is because the display characteristics of the electronic paper using the color filter member for electronic paper of the present invention can be made good by bringing the transparent electrode layer close to the display portion. Further, when the transparent electrode layer laminate is disposed on the outermost surface on the side where the display portion of the electronic paper is disposed, the transparent electrode layer may be the outermost surface, and the transparent electrode layer substrate may be the outermost surface. Further, in the color filter member for electronic paper according to the present invention, the transparent electrode layer is disposed on the outermost surface of the side on which the display portion of the electronic paper is disposed, and the color filter layer is disposed on the transparent electrode layer and includes only In the case where the color filter substrate is configured as a layer of a substrate, the transparent electrode layer and the color filter layer may be disposed in opposite directions. (5) Display medium layer In the present invention, the display medium layer may be disposed on the side of the counter electrode substrate on which the electronic paper is disposed with respect to the transparent electrode layer. The display medium layer used in the present invention is appropriately selected in accordance with the display mode of the electronic paper using the color filter member for electronic paper of the present invention. As a display method of the electronic paper, a well-known person can be applied, for example, electric 100121750 30 201215931 swimming method, twist ball method, powder moving method (electronic powder fluid method, charged toner type method), liquid crystal display method , thermal mode (tomb color mode, light scattering mode), electronic coloring mode, electrowetting method, magnetic swimming mode, and the like. In the month of this month, the car father used electrophoresis. The reason for this is that the method has entered the practical stage and is of a particle-moving type, so that an electronic paper having less viewing angle dependency and excellent responsiveness can be obtained. The electrophoresis method is based on the phenomenon of electrophoresis in which charged particles dispersed in a solvent are moved between electrodes by an electric field. Examples of the electrophoresis method include a microcapsule method, a microcup method, and the like. In the microcapsule method, the white particles and the black are made by encapsulating the charged white particles and the black particles with the transparent medium of the particles of the sub-government 4 into a microcapsule containing a transparent resin and applying an electric field. The particles move up and down to display black and white or grayscale. In the micro-cup method, the 蕤山+,, «, in the micropores spaced by the cup-shaped recess (microcups), disperse the θ ^ double-mass and the x-light white particles colored by the dye and apply the electric %. The color of the above white particles is superior. Move to display white or the above-mentioned dispersion. The method used in the present invention can be the same as the configuration, material and formation of (4). When the electronic paper of the capsule mode is used - such as the color core piece member is used for the micro-adhesive medium layer, for example, He Qing tr layer Γ Trang. The microcapsules as a dispersion of the white particles, the black particles, and the dispersion medium of the transparent coating of the present invention are fixed by a binder resin. As the transparent dispersion medium, for example, an alcohol solvent, various esters, alum, an aliphatic hydrocarbon, a zirconium hydrocarbon, a hydrocarbon group, a toothed hydrocarbon, a salt, or other various oils may be used alone, or It can be used in the preparation of surfactants and the like in such mixtures. As the white particles, for example, a white pigment such as titanium dioxide, rhodium, or trioxide can be used as the black particles. For example, a black pigment such as nigrosine, carbon black or titanium black can be used. Further, if necessary, a dispersing agent such as a charge control agent containing a particle such as an electrolyte, a surfactant, a metal soap, an oil, a varnish or a compound, a titanium coupling agent, a _ coupling agent, or a hydrazine coupling agent may be added to the pigments. , lubricants, stabilizers, etc. As a material for forming the wall film of the microcapsule, for example, an Arabian rubber, a composite film, a silk formic acid, a resin, a urea resin, or a urine resin can be used as the binder resin, which can be used with respect to the wall of the microcapsule, and is relatively The adhesion to the transparent electrode layer is excellent, and examples of the second-harmonic property include polyethylene's vaporized polyethylene, acetonitrile, an insulating polymer, and a polyoxyxylene resin. The display medium layer can be formed, for example, by coating the microcapsules on the transparent electrode layer, and the display layer can be formed separately from the above transparent 100121750.

32 201215931 = layer and ^ placed on the side of the opposite electrode substrate on which the electronic paper is disposed, and ten enough to form the display medium layer on the display medium layer substrate: the form of the moon layer laminate relative to the above s, The phantom layer k is arranged on the side of the opposite electrode substrate of the paper. There is an electron ^ is the reading of the fortune (4) substrate, the same color filter substrate. As the above-mentioned display medium (4), the thickness of the substrate can support the display medium sound, and the target & 士-二二, but preferably 10 - bribe (four) will cover the adhesive layer of the wire " paste. On the side of the read layer substrate. As the adhesive material, it is possible to use the same type I as the above-mentioned adhesive material as the above-mentioned dielectric layer laminate, and it is not particularly limited, and it is not limited to the other. The layers are the same. 〃 As the display f layer search position, as long as the phase electrode layer is disposed on the side of the counter electrode substrate on which the electronic paper is disposed, there is no (4) limitation, and it is preferable that the opposite side of the electronic paper is disposed. The outermost surface of the side of the electrode substrate. The reason for this is that the display characteristics of the electronic paper using the color fluorescent member for electronic paper of the present invention can be made good by bringing the display medium layer close to the counter electrode substrate. Further, when the display medium layer laminate is disposed on the outermost surface of the side on which the counter electrode substrate of the electronic paper is disposed, the display medium layer may be the outermost surface. The display medium layer substrate may be the outermost surface. 6. Color filter member for electronic paper 100121750 33 201215931 As described above, the color filter member for electronic paper of the present invention can be constructed in various layers. Among them, in the present invention, as a preferable layer constitution, the following may be mentioned. Further, the left side is the side that becomes the outermost surface of the electronic paper, and the right side is the side where the electronic paper display portion and/or the counter electrode substrate are disposed. • barrier layer 3, color filter substrate 1, barrier layer 3, color filter layer 2, adhesive layer 4 (refer to FIG. 7) • barrier layer 3, barrier layer substrate 3', barrier layer 3, adhesive layer 4, color filter substrate 1, color filter layer 2, adhesive layer 4 (refer to Figure 8) • optical functional layer, barrier layer, color filter substrate, barrier layer, color filter layer, adhesion Layer • Optical function layer, barrier layer, barrier layer substrate, barrier layer, adhesive layer, color filter substrate, color filter layer, adhesive layer, barrier layer, color filter substrate, barrier layer, color Filter layer, adhesive layer, transparent electrode layer substrate, transparent electrode layer, display medium layer, barrier layer, barrier layer substrate, barrier layer, adhesive layer, color filter substrate, color filter layer, adhesion Layer, transparent electrode layer substrate, transparent electrode layer, display medium layer, optical function layer, barrier layer, color filter substrate, barrier layer, color filter layer, adhesive layer, transparent electrode layer substrate, transparent electrode Layer, display dielectric layer, optical functional layer, barrier layer, barrier layer substrate, barrier The layer, the adhesive layer, the color filter substrate, the color filter layer, the adhesive layer, the transparent electrode layer substrate, the 100121750 34 201215931 transparent electrode layer, and the display medium layer are formed by forming the layers A color county sheet member for electronic paper that exhibits a medium that is protected from moisture or water vapor, and which has improved visibility and obtains good display characteristics. Further, FIG. 7 and FIG. 8 show a schematic cross-sectional view of another example of the color light-reel sheet member for electronic paper according to the present invention, and the symbols not shown in FIGS. 7 and 8 can be the same as those in FIG. The description herein is omitted. B. Electronic Paper Next, the electronic paper of the present invention will be described. The electronic paper of the present invention comprises a color filter for electronic paper, comprising: a color filter substrate; a color filter layer formed on a surface side of the color filter substrate and comprising a plurality of color layers, And a barrier layer disposed on at least one surface side of the color light-emitting sheet substrate; a transparent electrode layer; a display medium layer; and a counter electrode substrate including a pair of the opposite substrate and the centroid substrate The electrode layer; wherein the electron-color filter member is disposed on one surface of the electronic paper, the opposite electrode substrate is disposed on the other surface of the electronic paper, and the transparent electrode is opposite to the color filter a w substrate disposed on the opposite electrode substrate side, wherein the display medium layer is disposed on the counter electrode substrate side with respect to the transparent electrode layer, and the counter electrode layer is secreted relative to the opposite substrate The above-mentioned He dielectric layer side. The hometown ',, and the drawings are described in the face of the electronic paper of the present invention. Fig. 9 is a schematic cross-sectional view showing an example of the electronic paper of the present invention. The electronic paper 20 including the color filter member 10 for an electronic paper, the transparent electrode layer 8, the display medium layer 9, the adhesive layer 4, and the counter electrode substrate 13 are exemplified in Fig. 9 . Further, the color filter member 10 for electronic paper includes a color filter substrate 1 and a color filter layer 2 which is formed on one surface side of the color filter substrate 1 and includes a plurality of color layers (2R) 2G, 2B); and the barrier layer 3 disposed on the surface side of the color filter substrate 1 on which the color filter layer 2 is not formed; the counter electrode substrate 13 includes the opposite substrate 11 and is formed in the opposite direction The counter electrode layer 12 on the substrate 11. The electronic paper color filter member 10 is disposed on one surface of the electronic paper 20, and the counter electrode substrate 13 is disposed on the other surface of the electronic paper 20. The transparent electrode layer 8 is disposed on the counter electrode substrate 13 side with respect to the color filter substrate 1, and the display medium layer 9 is disposed on the counter electrode substrate 13 side with respect to the transparent electrode layer 8, and the counter electrode layer 12 is opposed to the opposite side. The substrate 11 is disposed on the side of the display medium layer 9. According to the present invention, since the color filter member for electronic paper including the barrier layer is used, the display portion of the electronic paper can be protected from moisture or oxygen, and the electronic paper excellent in color display characteristics can be obtained. Further, the color filter member for electronic paper used in the present invention can reduce the number of substrates constituting the layer, thereby making the electronic paper thin, and improving the optical characteristics of the electronic paper by reducing the number of interfaces. In the present invention, the color filter member for electronic paper can be integrated with the transparent electrode layer, and the color filter member for electronic paper, the transparent electrode layer, and the display medium layer can be integrated. 100121750 36 201215931 Furthermore, the "color filter member for electronic paper, the transparent electrode layer and the display medium layer" have been detailed in the above "A. Color filter components for electronic paper", so here The description is omitted. Hereinafter, other configurations in the electronic paper of the present invention will be described. L Counter Electrode Substrate The counter electrode substrate used in the present invention includes a counter substrate and a counter electrode layer formed on the counter substrate. (1) Counter electrode layer The counter electrode layer ' used in the present invention may be a pixel electrode layer formed to be orthogonal to the stripe pattern of the transparent electrode layer, or may include a plurality of thin film electrodes (four) (TFT) a 'Thin Film Tmnsi_' element and a tft electrode layer of the pixel electrode to which the above TFT element is attached. By borrowing money, the former is made into a passive matrix type n paper, and by using the latter, an active matrix type electronic paper can be produced. Among them, in the present invention, it is preferable to use the above TFT electrode layer. The reason is that the power of the active matrix type should be faster. (4) The secret layer of TFT secrets Lai Ming. Fig. 10 is a view showing that the TFT electrode layer mTFT electrode layer i is formed on the opposite substrate U and includes a plurality of TFT elements 14 and the TFT element wide-direction substrate 11 and 15 in the present invention. In the TFT electrode layer 12, 'the four-connected pixel electrode 100121750 14 includes the interpole electrode 37 201215931 14a, the gate insulating film 14h formed on the gate electrode i4a, and the gate insulating film. The semiconductor layer 14e on 14b is formed on the semiconductor layer 14d and the gate electrode 14e on the semi-conductive layer 14c so as to face each other at a predetermined interval, and the pixel electrode 15 is connected to the gate electrode 14e. Formation ° Further, as illustrated in FIG. 10, the TFT electrode layer used in the present invention may be formed by forming the protective film 16 so as to cover the TFT element 14, and the pixel electrode 15 is formed on the protective layer 16. The TFT element is not particularly limited, and is appropriately selected according to the type of the electronic paper of the present invention. For example, it may have a structure of an a-Si TFT or a structure having a P-SiTFT. In the case of a TFT element having an a-SiTFT structure, it may be a positive staggered type (top gate structure) and an inverted staggered type (which may be any one of the bottom n. Further, in the case of an error type, Any one of the channel type and the channel protection type. On the other hand, in the case of a TFT element having a p Si tft structure, it may be either a planar type or a staggered type as a semiconductor layer constituting the TFT element. It is not particularly limited as long as it can be formed on the counter substrate. For example, ruthenium, an oxide semiconductor, or an organic semiconductor can be used. As the ruthenium, polyfluorene or amorphous ruthenium can be used. As the oxide semiconductor, for example, it can be used. Zinc oxide (Zn〇), titanium oxide (ΤιΟ), magnesium zinc oxide (MgxZn^O), cadmium oxide (CdxZni x〇), cadmium oxide (cd〇), indium oxide (In2〇3), gallium oxide (Ga2) 〇3), tin oxide (Sn〇2), magnesium oxide (MgO), tungsten oxide (w〇), de-centering. Department, Department, 100121750 38 201215931

InGaZnMgO system, InAIZnO system, InFeZnO system, InGaO system, ZnGaO system, InZnO system. As the organic semiconductor, for example, an aromatic compound of a 7-inch electron conjugate type, a chain compound, an organic pigment, an organic ruthenium compound or the like can be used. More specifically, pentacene, tetracene, ° phenanthrene oligomer, benzene derivative, phthalocyanine compound, polyethyl fast derivative, polyphenanthene derivative, cyanine dye, and the like can be mentioned. The method of forming the semiconductor layer and the thickness thereof can be the same as those of the general one. The electrode electrode, the source electrode, and the electrode electrode which constitute the TFT element are not particularly limited as long as they have desired conductivity, and a conductive material used in a general TFT element can be used. Examples of such a material include inorganic materials such as Ta, Ti, A, Zr, Cr, Nb, Hf, Mo, Au, Ag, Pt, Mo-Ta alloy, W-Mo alloy, ITO, and IZO, and Conductive organic materials such as PEDOT/PSS. The method of forming the gate electrode, the source electrode, and the drain electrode and the thickness thereof can be the same as those of the general one. As the gate insulating film constituting the TFT element, the same as the gate insulating film in the general τρτ element can be used, for example, yttrium oxide, tantalum nitride, oxygen, aluminum, oxidized group, or barium titanate (BST ' can be used. Insulating inorganic materials such as Barium Strontium Titanate), lead Zirconium Titanate (PZT, Lead ZirC〇nate Titanate), and acrylic resin, phenolic resin, fluorine resin, epoxy resin, Cardo resin, and vinyl An insulating organic material such as an insulating organic material such as a resin, a quinone imine resin or a phenol resin. 100121750 39 201215931 As the gate insulation method and thickness, it can be the same as one. The protection can be formed on the TFT 70 piece. The protection system is set up to protect the TFT elements. For example, it is possible to prevent the semiconductor layer from being exposed to moisture or the like contained in the air. By virtue of the protective film of the shape, the deterioration of the performance of the TFT can be reduced. As such a protective film, for example, a method of forming a protective film and a thickness of the oxide oxide can be used, and it can be the same as the general one. The electrode is not particularly limited as long as it is used in a general electronic paper or the like. For example, an oxidized steel, an indium ruthenium or the like is preferably used. Oxidation The method of forming the pixel electrode and the thickness thereof can be the same as those of the general one. (2) The opposite substrate is used for ==: the opposite substrate layer supports the above-mentioned counter electrode layer. ▲ It is intended to be used as a substrate user of "electronic paper, etc.", and is particularly limited to, for example, a plate, a plastic plate, or the like. 2. The electronic paper of the electronic paper (4) is usually attached to the electronic paper (four) color filter member, the upper flip electrode layer and the display layer f layer are sequentially laminated, and the display medium is formed using the (four) layer containing the (four) material. The layer is bonded to the counter electrode substrate described above to the electrode layer. The adhesive layer may be formed on the display medium layer or may be formed on the counter electrode I as an adhesive material, and may be the same as the adhesive material described in the item "A. Color paper for electronic paper". The film thickness of the above-mentioned adhesive layer is the same as that of the other adhesive layer as long as it can be formed without being peeled off from the above-mentioned display layer by the above-mentioned display layer 100121750201215931. In the case of stickers &', there is no specific color limitation = the specific layer structure of the crepe paper, as long as it is the order of the color sheet first sheet member, the transparent electrode layer, the display medium layer, the pole layer, and the opposite substrate. can. The transparent electrode layer and the display medium layer can be formed on the substrate containing the substrate and the layer (4). Further, the layer configuration of the color ray-reel sheet member for electronic paper can be made up of any of the layers described in the above-mentioned "Electronic paper (four) color enamel sheet member". Therefore, the description herein is omitted. As described above, the electronic paper of the present invention can be constructed using various layers. Here, in the present invention, as a preferred layer constitution, the following may be mentioned. • barrier layer 3, color filter, light sheet substrate i, barrier layer 3, color blanket layer 2, adhesive layer 4, transparent electrode layer substrate 8|, transparent electrode layer 8, display medium layer 9, adhesive layer 4 , the opposite electrode layer 12, the opposite substrate ιι (see FIG. 11) • the barrier layer 3, the barrier layer substrate 3, the barrier layer 3, the adhesive layer 4, the color grading substrate 1, and the color glazing sheet Layer 2, adhesive layer 4, transparent electrode layer base material 8', transparent electrode width 8, display medium layer 9, adhesive layer 4, opposite layer 4, opposite substrate 11 (refer to Fig. 12) Functional layer, barrier layer, color filter substrate, barrier layer, color filter layer, adhesive layer, transparent electrode layer substrate, transparent electrode layer, display medium layer, adhesive layer, counter electrode layer, opposite base Material 100121750 41 201215931 • Optical functional layer, barrier layer, barrier layer substrate, barrier layer, adhesive layer color filter substrate, color filter layer, adhesive layer, transparent electrode layer substrate, transparent electrode layer, display medium The layer, the adhesive layer, the counter electrode layer, and the opposite substrate are formed into the layers to form a protectable display. E-paper that is protected from moisture or water vapor and that has improved visibility and good display characteristics. Further, Fig. 11 and Fig. 12 are schematic cross-sectional views showing other examples of the electronic paper of the present invention, and the symbols which are not described in Figs. 11 and 12 are the same as those in Fig. 9. Therefore, the description herein is omitted. As the use of the electronic paper of the present invention, it can be used for a display of a digital machine, an electronic book, a digital signage (electronic signage), and the like. c. Method of Producing Color Filter Member for Electronic Paper Next, a method of manufacturing the color filter member for electronic paper of the present invention will be described. A method of manufacturing a color filter member for an electronic paper according to the present invention is characterized by comprising a color filter member forming step for forming an electronic paper, wherein the step of forming a color filter substrate by a roll-to-roll method is formed on the above a color filter layer including a plurality of color layers on one surface side of the color slab substrate, and a color filter member for electronic paper disposed on the barrier layer on at least one surface side of the color filter substrate . According to the present invention, a color filter member for electronic paper which is highly productive can be obtained by using a roll-to-roll method to form a color filter member for electronic paper which does not require high positional accuracy of each constituent layer. Hereinafter, each step of the method for producing a color filter member for an electronic paper according to the present invention will be described in the description of 100121750 42 201215931. 1. Color filter member forming step for electronic paper The color filter member forming step for electronic paper according to the present invention is a step of forming a color filter member for electronic paper by a roll-to-roll method, the color of the electronic paper The filter member includes: a color filter substrate; a color filter layer formed on one surface side of the color filter substrate and including a plurality of color layers; and a barrier layer disposed on the color filter At least one surface side of the light sheet substrate. In addition, the color filter member for electronic paper is the same as that described in the item "A. Color filter member for electronic paper", and therefore the description herein is omitted. In this step, a color filter layered body having a color filter layer formed on a color filter substrate; a barrier layer laminated body having a barrier layer formed on the barrier layer substrate; and an optical function At least one of the optical functional layer laminate having the optical functional layer formed on the layer substrate or the surface protective layer laminate having the surface protective layer formed on the surface protective layer substrate is formed by using an adhesive layer by a roll-to-roll method fit. Therefore, according to the combination of the laminated bodies bonded by the roll-to-roll method, the present step can be divided into four aspects in which the color filter laminated body and the barrier laminated body are bonded together ( a first aspect of the invention, wherein the color filter layer laminate is bonded to the optical layer laminate or the surface layer laminate (second aspect), and the color filter laminate is The barrier layer laminate body is bonded to the optical function layer laminate or the surface protection layer laminate (third aspect), and the barrier layer 100121750 43 201215931 laminate and the optical functional layer laminate or the surface protection The layered layer fits in the same way (the fourth aspect). Further, in the aspect, the color filter substrate may be bonded by a roll-to-roll method to form a color filter layer θ in place of the color filter layered body. Hereinafter, each aspect will be described. (1) The first aspect of the color filter member forming step of the electronic paper in the first aspect of the invention is a color in which a color filter layer is formed on a color filter substrate by a roll-to-roll method. The step of forming a filter sheet laminate and a barrier layer laminate having a barrier layer formed on the barrier layer substrate to form a color filter sheet member for an electronic paper. In this aspect, first, the strip-shaped layer of the above-described color grading sheet and the strip-shaped layer of the above-mentioned barrier layer are formed, and the layered bodies are bonded by a roll-to-roll method. When the color filter member for an electronic paper formed by the present aspect includes an optical functional layer or a surface, the surface is formed by a roll-to-roll method to form a long strip of the above-mentioned color light-receiving sheet layer and a long layer. Before the strip-shaped layer of the barrier layer is laminated, the optical layer (4) sheath may be formed in any of the layers, or the strip-shaped sheet may be used to form the strip-shaped layer of the above-mentioned colored calender layer. The strip-shaped layer of the above-mentioned barrier layer laminated body is cut into a sheet shape, so that the silk layer of the Weiwei layer is in the form of a filament-like layer of the optical layer layer of the filament layer, and the surface layer of the surface of the Weng (4) layer is 100121750 44 201215931 Shaped surface protective layer laminated body. Further, an optical functional layer or a surface protective layer may be formed on the laminated body in which the long-shaped color filter laminated body and the long-shaped barrier layer laminated body are bonded by a roll-to-roll method. Further, the color filter member 电子 for electronic paper formed by this aspect is the same as that described in the above section "A. Color enamel sheet member for electronic paper", and therefore the description thereof is omitted. (2) The second aspect of the step of forming the color filter sheet for the electronic paper in the second state sample is to form a color calender layer on the substrate of the shirt color by the roll-to-roll method. Knowing color; a light-receiving laminated layer body, and an optical functional layer laminated body having a light dry work layer formed on the optical functional layer substrate or a surface protective layer substrate having a surface protective layer formed thereon, The step of forming a color filter member for electronic paper. In the present invention, the above-mentioned color light-emitting sheet laminated body having a long strip shape, the above-mentioned optical functional layer laminated body in the form of a long strip, or the above-mentioned surface protective layer formed in a long strip shape are formed. Then, the layered body is bonded by a roll-to-roll method. In the present invention, since it is necessary to form a barrier layer, in the present aspect, the above-described color/sheet layered body and the elongated optical functional layer laminated body of the strip shape are formed by a roll-to-roll method. Before the strip-shaped surface protective layer laminate is bonded, the barrier layer is formed on any laminate. Alternatively, the long-shaped color filter 100121750 45 201215931 layered body, the long-length optical functional layer laminated body or the long strip-shaped surface protective layer may be laminated by a roll-to-roll method. The laminated body is cut into a sheet shape and bonded to a sheet-like barrier layer laminated body having a barrier layer formed on the barrier layer substrate. Further, the long color filter layer layered body may be bonded to the long optical functional layer laminate or the elongated surface protective layer laminate by a roll-to-roll method. A barrier layer is formed on the laminate. In addition, the layer configuration of the color filter member for electronic paper formed by this aspect can be the same as that described in the item "A. Color filter member for electronic paper", and therefore, the description here will be given. Omitted. (3) The third aspect of the color filter member forming step of the electronic paper in the third aspect of the invention is that a color filter layer is formed on the color filter substrate by a roll-to-roll method. a color filter layered body; a barrier layer layered body having a barrier layer formed on the barrier layer substrate; and an optical functional layer layered body or a surface protective layer substrate on which the optical functional layer is laminated on the optical functional layer substrate The surface protective layer of the surface protective layer is laminated to form a color filter member for electronic paper. In this aspect, first, the strip-shaped color filter layered body, the strip-shaped barrier layer layered body, the strip-shaped optical functional layer layered body or the elongated strip surface protective layer are formed. Laminated body. Then, the laminated bodies are sequentially attached by a roll-to-roll method. In this case, the order of the bonding is not particularly limited as long as the optical functional layer or the surface protective layer is placed on the outermost surface of the color filter member for electronic paper 100121750 46 201215931. In addition, the layer configuration of the color filter member for electronic paper formed by this aspect is the same as that described in the item "A. Color filter member for electronic paper", and therefore the description herein is omitted. . (4) The fourth aspect of the color filter member forming step for the electronic paper in the fourth aspect of the invention is a barrier layer laminated body in which a barrier layer is formed on the barrier layer substrate by a roll-to-roll method. The step of forming a color filter member for an electronic paper by bonding the surface protective layer laminated body having the surface protective layer formed on the optical functional layer laminate or the surface protective layer substrate on which the optical functional layer is formed on the optical functional layer substrate . In the present aspect, first, the above-mentioned barrier layer laminated body having a long strip shape, the above-mentioned optical functional layer laminated body having a long strip shape, or the above-mentioned surface protective layer laminated body having a long strip shape are formed. Then, the laminated bodies are bonded by a roll-to-roll method. Further, in this aspect, the long-shaped barrier layer laminate body is bonded to the long-length optical functional layer laminate or the elongated surface protective layer laminate by a roll-to-roll method. The laminated body is cut into a sheet shape and bonded to a sheet-like color filter layered body in which a color filter layer is formed on a color filter substrate. In addition, the layer configuration of the color filter member for electronic paper formed by the present aspect is the same as that described in the item "A. Color filter member for electronic paper", and therefore the description herein is omitted. . 100121750 47 201215931 2. Step of laminating a touch panel layer In the present invention, the step of forming a color filter sheet for an electronic paper may further include a step of laminating a touch panel layer. In a manner, the touch panel layer is aligned under vacuum, or the touch panel layer is laminated in a sheet-to-sheet manner. In the case where the color filter member for electronic paper manufactured by the present invention includes a touch panel layer, the touch panel layer must be aligned with the color calender sheet layer by the step of laminating the touch panel layer Since the alignment is adjusted, a color filter member for electronic paper having a touch panel function and excellent color display characteristics for electronic paper can be obtained. In addition, the touch panel layer is the same as that described in the above section "A. Color filter member for electronic paper", and thus the description thereof is omitted. The arrangement position of the touch panel layer laminated by this step is described in the above section "A. Color enamel sheet member for electronic paper", and thus the description herein is omitted. In this step, since the positional accuracy of the touch panel layer and the color filter layer is required, the touch panel layer or the component including the touch panel layer and the color including the touch panel layer can be adjusted by adjusting the alignment of the film. The bonding of the components of the filter layer. Specifically, the first aspect, the second aspect, the third aspect, or the fourth aspect described in the above-mentioned "Steps for Forming a Color Filter Member for Electronic Paper" includes color. The member of the filter layer, the touch panel layer or the member including the touch panel layer is laminated by vacuum in a sheet-to-sheet manner or by sheet-to-sheet alignment. 100121750 48 201215931 A touch panel may be further provided by bonding a touch panel layer to at least one of the barrier layer laminate, the optical function layer laminate, and the surface protection layer laminate by a roll-to-roll method. The members of the layer and the member comprising the color filter layer are laminated by vacuum in a sheet-to-sheet manner or by sheet-to-sheet alignment. The method of aligning and bonding under vacuum by the sheet-to-sheet method is not particularly limited, and examples thereof include a method in which an alignment mark formed in advance in two members is used in a vacuum chamber. The member of the monolithic color filter layer is aligned with the one-piece touch panel layer or the member including the touch panel layer and is bonded by pressing the two members via the adhesive layer. The degree of vacuum is not particularly limited as long as it can prevent foreign matter and air bubbles from being mixed on the bonding surface, and can be set, for example, within a range of 5 〇 3 to 10000 1 。. The method of aligning the ground layer by the sheet-to-sheet method is not particularly limited, and for example, a material which is formed by using the county in the two members and containing the monolithic color light-receiving layer will be mentioned. The member is aligned with the one-piece touch panel layer or the member including the touch panel layer, and the adhesive layer is pressed by pressing the two members. '&, the layer structure of the color ray-receiving sheet member including the touch panel layer laminated by this step is the same as that described in the above-mentioned "A. Electronic paper sheet member" shot. Description omitted? Light Considerations D. Method of Manufacturing Electronic Paper Next, the electronic production method of the present invention will be described. The method of manufacturing an electronic paper according to the present invention is characterized by comprising: a color filter member forming step for electronic paper, wherein the color filter member for electronic paper is formed by a roll-to-roll method; and an electronic paper with a display portion a color filter member forming step of forming the transparent filter layer on the surface of the color filter member for the electronic paper with the display medium layer disposed on the surface of the color filter member for the electronic paper a display portion of the electrode layer and the display medium layer to form a color filter member for an electronic paper with a display portion; and a bonding step of the color filter member for the electronic paper with the display portion and the counter substrate And a counter electrode substrate formed on the counter electrode layer on the opposite substrate, wherein the counter electrode layer is disposed on the counter substrate and the color filter member for electronic paper disposed on the display unit The manner of displaying the side of the dielectric layer is described above, and the film is aligned by vacuum in a sheet-to-sheet manner. According to the present invention, a color filter member for an electronic paper which does not require a high positional accuracy of each constituent layer is formed by a roll-to-roll method, and a precise position is required by using a wafer-to-sheet vacuum alignment bonding. By attaching the color filter member for the electronic paper to the display unit and the counter electrode substrate, the electronic paper having high productivity can be obtained with high precision. Further, by using the above-described color filter member for electronic paper, electronic paper excellent in color display characteristics can be obtained. In addition, the step of forming the color filter member for electronic paper is described in detail in the above "c. Method for producing a color filter member for electronic paper", and thus the description thereof is omitted. Hereinafter, other steps in the method of producing the electronic paper of the present invention will be described. 100121750 50 201215931 Illustrated step of forming a color grading sheet member for electronic paper according to the present invention, the step of forming an electronic paper color grading sheet member in the display unit of the present invention is to display the above-mentioned display on the color enamel member for electronic paper The dielectric acoustic spacer f is formed on the surface of one of the color filter members for electronic paper, and forms a display portion including a transparent electrode layer and a display medium layer to form a color enamel for electronic paper with a display portion. The step of the light sheet member. The display portion used in this step includes a transparent electrode layer and a display medium layer. In addition, the transparent electrode layer and the display medium layer are the same as those described in the item "A. Color county sheet member for electronic paper", and therefore, the display portion used in this step is described except for the transparent electrode layer. In addition to the display medium layer, the display portion substrate may also be included. When the display portion includes the display portion substrate, it can be used in this step in the form of a display portion laminate in which the transparent electrode layer and the display medium are formed on the display portion substrate.

As the base material of the display portion used in the present step, the "A = paper (four) MW member" can be used as the substrate of the pure filter substrate, and the thickness of the substrate of the display portion can be used as long as it can support the transparent electrode layer. The display layer is not particularly limited, but is preferably in the range of ^ claws to // m. ^ The upper Lai Ke layer body is formed by the key layer and is attached to the substrate side of the display portion. The adhesive material may be the same as the one described in the item "A color filter for optical paper, light sheet member". 100121750 51 201215931 The film thickness of the above-mentioned adhesive layer is not particularly limited as long as it can be bonded without peeling off the display portion laminate, and is the same as the above-described other adhesive layer. The display unit used in this step may be provided with a transparent electrode layer substrate in addition to the display unit substrate. When the display portion includes the transparent electrode layer substrate 2 = shape, the display electrode layer can be formed on the substrate including the transparent electrode layer and the transparent electrode layer can be formed on the display substrate. The form of the display portion of the dielectric layer laminate is used in this step. Further, the transparent electrode layer substrate and the transparent electrode layer laminate are the same as those described in the above section "A color paper member for A-electron paper", and therefore the description thereof is omitted. In the present invention, the present step can be divided into two aspects including a state in which the substrate of the display portion is not included and a state in which the substrate of the display portion is included, depending on the configuration of the display portion. The transparent electrode layer and the display medium layer are sequentially formed on the electronic paper (four) color light-receiving sheet member without the secret tissue of the display portion substrate. The aspect including the substrate of the display portion can be further classified into two types including only the secret of the display and the surface of the substrate including the display substrate and the transparent electrode layer, depending on the layer structure of the laminate of the display portion. In the aspect including only the display portion substrate, first, a display portion laminate in which the display portion substrate is raised to have a transparent electrode layer and a visible dielectric layer is formed. Then, the display portion laminate is bonded to the electronic paper coloring sheet member by an adhesive layer. In the aspect including the display portion substrate and the transparent electrode layer substrate, first, a transparent electrode layered body in which a transparent electrode layer is formed on a transparent electrode layer substrate and formed on the display portion substrate is formed in a shape of 100121750 52 201215931 A display medium layer laminate of the dielectric layer is displayed. Then, the transparent electrode layer laminate and the display medium layer laminate are bonded together using an adhesive layer to form a display portion laminate. Further, the display portion laminate is bonded to the electronic paper color filter member by using an adhesive layer. Further, when the color filter member for electronic paper does not include the touch panel layer, the roll-to-roll method may be used when the display portion laminate is bonded to the electronic paper color filter member. The layer structure of the color filter member for electronic paper having the display portion formed by the present step is disposed on one surface of the color filter member for electronic paper with the transparent electrode layer interposed therebetween. Although it is not particularly limited, it is preferable that the display portion is disposed on the same side as the side on which the color filter layer is formed with respect to the color filter substrate. The reason for this is that when the color filter layer and the display portion are brought close to each other, when the color filter member for electronic paper attached to the display portion of the present invention is used for electronic paper, the display characteristics of the electronic paper can be made good. The layer structure of the color filter member for electronic paper with the display portion described above includes two aspects, which do not include the surface of the display portion substrate and the substrate including the display portion. The layer structure of the color filter member for electronic paper which does not include the display portion of the display portion base material is the order of the color filter member for electronic paper, the transparent electrode layer, and the display medium layer. As described above, the aspect including the substrate of the display portion can be classified into a surface including only the display portion substrate and the substrate including the display portion substrate and the transparent electrode layer substrate according to the layer structure of the display portion laminate 100121750 53 201215931. The two aspects of the pattern. The layer structure of the color paper sheet for electronic paper including the display portion including only the surface of the display portion substrate may be a color filter member for an electronic paper, a substrate for a display, a transparent electrode layer, and a display medium. The order of the layers may be the order of the color stencil sheet member for the electronic paper, the transparent electrode layer, the display portion substrate, and the display medium sound.电子Electronic paper (4) which is a display portion including a display portion substrate and a transparent f-electrode substrate, and a layer structure of the aperture member, which may be a color filter member for an electronic paper, a transparent electrode layer substrate, or Transmissive substrate, display media..., lls... Adhesive layer, visible, 贞τ; ιϊ sequence, can also be electronic paper (four) color enamel sheet, transparent electrode layer substrate, transparent electrode layer, adhesive layer , display medium shore = motif, may also be electronic_color_member, ^ electrode layer substrate, (four) layer, display part substrate, display medium layer order, may also be electronic (four) color transparent electrode acoustic substrate p piece The order of the member, the transparent electrode layer, and the dielectric layer 'display portion substrate. 2. The color of the paper is used as the layer of the member, and the color enamel sheet member for electronic paper can be used. Therefore, here, The description is omitted. Any layer structure 2 and bonding step 100121750. The second Li bonding step is to use the color member for the electronic paper with the display portion and the pair of the opposite substrate and the pair of the opposite substrate formed on the opposite substrate. In the counter electrode substrate of the electrode layer, the counter electrode layer is disposed on the display medium layer side of the color filter member for electronic paper having the display portion with respect to the opposite substrate, and the sheet is formed by the sheet The step of aligning the sheets in a vacuum manner. Further, the counter electrode substrate including the counter substrate and the counter electrode layer formed on the counter substrate is the same as that described in the item "B. E-paper", and thus the description thereof is omitted. . In this step, an adhesive layer containing an adhesive is usually used, and the electronic paper color filter member attached to the display portion is bonded to the counter electrode substrate. The adhesive layer may be formed on the color filter member for electronic paper having the display portion, or may be formed on the counter electrode substrate. Further, the adhesive layer is the same as that described in the above-mentioned "B. Electronic Paper", and therefore the description herein is omitted. The method of aligning and bonding under vacuum by the sheet-to-sheet method is not particularly limited, and examples thereof include a method in which a single sheet is used in a vacuum chamber by using alignment marks previously formed on the two members. The color filter member for electronic paper having the display portion is aligned with the one-piece counter electrode substrate, and the two members are pressed by the adhesive layer to be bonded. The degree of vacuum is the same as that described in the section "2. Touch panel layer lamination step" of "C. Method for manufacturing color filter member for electronic paper". 3. An arbitrary step of the method for producing an electronic paper according to the present invention, comprising the step of forming a color filter member for an electronic paper including the necessary steps, and the step of forming a color filter member for the electronic paper with the display portion and the above In addition to the fitting step, any step may be included as needed. For example, the color filter member for electronic paper having the display portion formed by the step of forming the color filter member for electronic paper with the display portion shown in the display portion is cut off before the bonding step. A step of forming a sheet, a washing step, a surface modification step such as ultraviolet (UV) irradiation, a dehumidification step, an inspection step, and the like. 4. Electronic paper The layer structure and use of the electronic paper manufactured by the method for producing electronic paper of the present invention are the same as those described in the above-mentioned "B. Electronic Paper", and therefore the description herein is omitted. Furthermore, the present invention is not limited to the above embodiment. The above-described embodiments are exemplified and include substantially the same configuration as the technical idea described in the claims of the present invention, and any of the same effects are also included in the technical scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic cross-sectional view showing an example of a color filter member for an electronic paper according to the present invention. Fig. 2 is a schematic cross-sectional view showing another example of the color filter member for electronic paper of the present invention. Fig. 3 is a schematic cross-sectional view showing another example of the color filter member for electronic paper of the present invention. Fig. 4 is a schematic cross-sectional view showing another example of the color filter member for electronic paper of the present invention 100121750 56 201215931. Fig. 5 is a schematic cross-sectional view showing another example of the color filter member for electronic paper of the present invention. Fig. 6 is a schematic cross-sectional view showing another example of the color filter member for electronic paper of the present invention. Fig. 7 is a schematic cross-sectional view showing another example of the color filter member for electronic paper of the present invention. Fig. 8 is a schematic cross-sectional view showing another example of the color filter member for electronic paper of the present invention. Fig. 9 is a schematic cross-sectional view showing an example of the electronic paper of the present invention. Fig. 10 is a schematic cross-sectional view showing an example of a counter electrode substrate used in the present invention. Fig. 11 is a schematic cross-sectional view showing another example of the electronic paper of the present invention. Fig. 12 is a schematic cross-sectional view showing another example of the electronic paper of the present invention. [Main component symbol description] 1 Color filter substrate 2 Color filter layer 2R, 2G, 2B Colored layer 3 Barrier layer 3' Barrier layer substrate '3" Thin plate glass 4 Adhesive layer 100121750 57 Optical functional layer surface protection Layer touch panel layer transparent electrode layer transparent electrode layer substrate display medium layer electronic paper color filter member opposite substrate opposite electrode layer TFT electrode layer opposite electrode substrate TFT element gate electrode gate insulating film semiconductor layer Source electrode > and electrode electrode electrode protection film electronic paper 58

Claims (1)

201215931 VII. Patent Application Range: 1. A color filter member for electronic paper, which is used for disposing a display medium layer between two substrates which are transparent to at least one of the two substrates, and the display medium layer displays the predetermined information. The electronic paper is characterized in that: a color filter, a light sheet substrate; a color filter layer formed on one surface side of the color filter substrate, and having a plurality of color layers; and a barrier layer It is disposed on at least one surface side of the color filter substrate. 2. The color filter member for electronic paper according to the first aspect of the invention, wherein the optical functional layer or the surface protective layer is disposed on the outermost surface opposite to the side on which the display portion on which the electronic paper is disposed. 3. The color filter member for electronic paper according to claim 1 or 2, wherein the touch panel layer is disposed in the electronic device with respect to the color filter substrate and the color filter layer The opposite side of the side of the display portion of the paper. 4. The color filter member for electronic paper according to claim 1 or 2, wherein the transparent electrode layer is disposed on a side on which the display portion on which the electronic paper is disposed, with respect to the color filter substrate. 5. The color filter member for electronic paper according to the fourth aspect of the invention, wherein the display medium layer is disposed on a side of the counter electrode substrate on which the electronic paper is disposed, with respect to the transparent electrode layer. 100121750 59 201215931 6. An electronic paper having a color filter member for an electronic paper, comprising a color filter substrate, formed on one surface side of the color filter substrate, and having a plurality of color layers a color filter layer; and a barrier layer disposed on at least one surface side of the color filter substrate; a transparent electrode layer; a display dielectric layer; and a counter electrode substrate including the opposite substrate and the a counter electrode layer on a counter substrate; wherein the electronic paper color filter member is disposed on a surface of the electronic paper, and the counter electrode substrate is disposed on the electronic paper In one surface, the transparent electrode layer is disposed on the counter electrode substrate side with respect to the color filter substrate, and the visible dielectric layer is disposed on the counter electrode substrate side with respect to the transparent electrode layer. The counter electrode layer is disposed on the display medium layer side with respect to the opposite substrate. 7. A method of manufacturing a color filter member for an electronic paper, comprising the steps of forming a color filter for an electronic paper and a film member, wherein the step is to form a color filter for electronic paper by a roll-to-roll method. The color filter member for electronic paper has a color light guide sheet substrate, a color filter layer formed on the surface side of the color light-emitting sheet substrate and having a plurality of color layers, and a color filter layer disposed on the color filter a barrier layer on at least one surface side of the light sheet substrate. 8. The method of manufacturing a color filter member for an electronic paper according to the seventh aspect of the invention, wherein the step of forming the color filter member for the electronic paper has a method of forming a touch panel layer by a chip pair The method of aligning the bonding under vacuum or the step of laminating the touch panel layer by means of a sheet-to-sheet method. A method of producing an electronic paper, comprising: a color filter member forming step for electronic paper, which forms a color filter for electronic paper according to claim 1 or 2 by a roll-to-roll method a color filter member forming step for an electronic paper with a display portion attached to the color filter member for an electronic paper, wherein the display medium layer is disposed in the color for electronic paper with the transparent electrode layer interposed therebetween a color filter member for an electronic paper with a display portion and a display portion including a transparent electrode layer and a display medium layer, and a bonding step for attaching the display portion to the display portion a color filter member for an electronic paper, and a counter electrode substrate having a counter substrate and a counter electrode layer formed on the counter substrate, wherein the counter electrode layer is disposed on the counter substrate In the above-described display medium layer side of the color filter member for electronic paper with the display portion, the film is aligned under vacuum by a sheet-to-sheet method. 100121750 61