WO1985002375A1

WO1985002375A1 - Image-receiving material

Info

Publication number: WO1985002375A1
Application number: PCT/JP1984/000559
Authority: WO
Inventors: Yuji Takashima; Keiichi Yubakami; Tokihiko Shimizu
Original assignee: Matsushita Electric Industrial Co., Ltd.
Priority date: 1983-11-24
Filing date: 1984-11-22
Publication date: 1985-06-06
Also published as: JPS60112484A; DE3483041D1; EP0162930A1; EP0162930A4; JPH0433633B2; EP0162930B1

Abstract

An image-receiving material for use in an image-forming process using as an inking material a dye capable of forming color when adsorbed on an electron-accepting substance, which comprises a substrate having provided thereon a color-developing layer containing silica as a main agent for developing color of the dye. The use of silica as color-developing agent improves transparency of the color-forming layer and provides a clear image having a high coloration density.

Description

Specification

Title of invention

Image receptor ―

Technical field

The present invention relates to an image receptor used for image recording such as electrophotography or printer. Specifically, the present invention relates to an image receptor that is useful for image recording using a dye alone as an inking material.

Background art

Conventionally, various image recording methods using a dye alone as an ink have been proposed. For example Japanese Patent Publication ^{5 5} - ⁴ 9 3 0 sublimable in § No. Ru disclosed 'color - Wa Nshi ® Tsu preparative electrophotography was use a light-transmissive particles containing a full O over Ma, also a sublimable dye A sublimation transfer method in which a color sheet applied to capacitor paper is heated by a heating element to cause the sublimated dye to develop color on an image receptor, and further disclosed in Japanese Patent Publication No. 56-2O2O There is a gas jet recording method in which a sublimable dye gas is electrically controlled to eject a dye image on an image receptor.

In order to obtain a clear dye image, it is necessary for the dye to be molecularly and uniformly colored on the image receptor in order to obtain a clear dye image.

Therefore, an image receptor carrying a dye developer is usually used.

Conventionally, in such an image receptor, a photo paper for pressure-sensitive recording using an active gray as a head colorant has been used.

However, in the case of bottom paper, the active clay is colored light brown, and (2) the color purity of the dye image is reduced due to the reason that (2) the active clay has poor transparency and the coloring layer becomes opaque. There was a problem. But OMPI, WIPO They were especially unsuitable for color records.

Disclosure of the invention

An object of the present invention is to provide an image receptor which is used for image recording using a single dye as an ink and has a transparent coloring layer containing a color developer.

The image receptor of the present invention has a structure in which a color-forming layer mainly composed of a screw is provided on a substrate], and the color-forming layer has an action of forming a single dye molecule in a molecular and uniform manner. It is.

Brief description of drawings

The figure is a schematic sectional view showing one embodiment of the image receptor of the present invention. BEST MODE FOR CARRYING OUT THE INVENTION

In one embodiment of the image receptor according to the present invention, a color forming layer 3 mainly composed of silica 2 is supported on a substrate 1 as shown in the figure.

Silica 2 is used as a color developer and has excellent transparency. In addition, since it is colorless and has heat resistance, it does not cause yellowing due to heat, and a dye image with high color purity can be obtained. The use Ru silica force to the invention, Example Eba 3: 1 ^ ₃ 20 ': 73102, 2. _{0 3 ':. 73102, xMgO} y S ί0 2 throat χΜ. ¾A silicate represented by y S iO or XH 00 ₀ A silicate represented by yS iO or amorphous silicon, glassy or colloidal silicon dioxide Applicable. Above all, a colloidal series having a pH of 6 or less is particularly excellent in that the dye is excellent in coloring property and the coloring layer is transparent.

Various types can be applied to the substrate 1 depending on the purpose of use. For example, high-quality white paper, art paper

O PI Is suitable. For transparent images such as slides, plastic sheets such as vinylon, cellophane and acetyl cellulose, which have excellent transparency and heat resistance, are suitable.

In order to make the color-forming layer 3 transparent, a finely dispersed silica in a binder may be applied to the substrate 1 using a bar coater in a usual manner. the particle size of O. ¹ following Mi-click opening down the Shi preferred.

It is preferable that the binder has a strong binding force, is transparent, and is excellent in dispersion of the soldering force. For example, a styrene-butadiene copolymer, ethylcell π-series, and an acrylic resin are preferred. In particular, a combination of a styrene-butadiene copolymer and a colloidal series is hardened by heating to improve heat resistance, and is particularly suitable for use in heating an image receptor.

In order to improve the coloring efficiency of the dye, it is better to make the coloring layer porous so that the dye can be easily absorbed by the series. For this purpose, the amount of the binder to be added is preferably 30% by weight or less based on the silicon force. The coating amount of the coloring layer required to fully develop the dye, different but 1 ~ 1 o? ./ _m ² me by the dye used is appropriate.

If necessary, a dispersing agent may be added when dispersing the silicic acid into the binder.An antioxidant or quintia may be added to the coloring layer for the purpose of preventing fading of the dye. Of course. Further, a well-known electron accepting substance such as an organic acid or an inorganic acid may be used in combination with silica as a color developing aid.

Example 1

The following mixture was sufficiently stirred and mixed with a mixer to obtain a color forming layer solution. Developer:

O PI

, — WIPO Silica (Nissan Chemical Co., Ltd. Colloidal Slicer Sno-Tex 0) (PH 2 to 4, solid content 20 weight 5δ) …… 1Ο weight part Binder: _.

Styrene-butadiene copolymer (Nippon Zeon Co., Ltd. “Dambond” (solid content 4 Ο weight) 5 parts by weight) This color layer solution is coated on art paper by 69 / ττϊ (coating amount after drying). Thus, an image receptor for a reflection image was obtained.

Example 2

Example: The coloring layer solution of ¹ was added to the sheet of vinylon for 6? After coating with Zm ¹¹ , image receptor B for transmission images was obtained. Transmittance of image receptor is 9 O ¾6 7 ο

Example 3

The mixture of the following formulation was sufficiently dispersed with an agitator to form a color layer solution ο

Developer:

Silica (Fine Seal Τ-3 2 （(ρΗ6) made by S 德 san Soda)-1 ο ο by weight Binder:

Etinole Senorelose 1 Q parts by weight Solvent:

Methylene chloride ... 1 ο bw by weight This color forming layer solution was coated on high quality paper at 89 / rrt (coating amount after drying) to obtain an image receptor C for a reflection image. Yellow-Disperse dye (Mitsubishi Kasei Kogyo Co., Ltd. pT-52Y), I Presenter basic dye (C. I base -. Shi click record head 9), magenta 'sublimation mosquito ra - off O - Ma _(7' - Jechirua Mi Bruno - 1, _3, 3,

The stomach down drill Roh Benzosu pyro Pila down), their respective Echiruseru opening - - 5 over Te door La methylation in the vinegar binder was applied to a thickness of ¹ 5 Mi-click and Russia down of capacitor paper, Three types of color sheets D, E, and F were prepared. † Next, the image receptor obtained in the example was superimposed on the color sheet, and the mixture was placed at 180 ° C. for 5 seconds for 1 second. When heated under the conditions of k9d, a clear yellow and magenta colored image as shown in Table 1 was obtained on the image receptor. o The numbers in the table indicate the color densities.

* Indicates transmission density. Experiment 2

Table 2 shows the results obtained by superimposing the color sheet F on the colored image obtained by using the color sheet D in experiment 1 and heating it under the same conditions as in experiment 1. Such a bright red colored image was obtained.

ΟΜΡΙ ό 一

Two

* Indicates transmission density. Industrial applicability

In the image receptor of the present invention, the color developing layer can be made transparent because a developer having excellent transparency is used. Therefore, the dye formed at the lower part of the color-forming layer is not concealed by the color developer at the upper part, thereby lowering the color-forming density. As a result, high-quality images can be realized using electrophotography or a printer.

OMPI

Claims

The scope of the claims

1.In an image receptor having a structure in which a coloring layer that develops a dye that develops when adsorbed on an electron-accepting substance is provided on a substrate, the coloring layer serves as a main developer of the dye. An image receptor characterized by including a series of forces.

2. The image receptor according to claim 1, wherein the color-forming layer contains silica and a transparent resin binder.

3. The image receptor according to claim ² , wherein the amount of the resin binder is not more than 30% by weight with respect to the shell force.

4. The image receptor according to claim 2, wherein the resin binder is a styrene-diene copolymer.

5. The image receptor according to claim ¹ , wherein the silica is a solidified colloidal silica having a pH of 6 or less.

6. The image receptor according to claim 1, wherein the substrate is paper.

7. The image receptor according to claim 1, wherein the substrate is a transparent plastic film.

O PI