KR100710144B1 - Method for fabricating liquid crystal display panel - Google Patents

Abstract

The present invention provides a method for manufacturing a liquid crystal display panel, the first substrate having an active region composed of a plurality of unit pixel regions, and the liquid crystal display panel in which a liquid crystal is injected between the second substrate, the first substrate Forming a plurality of gate wirings on the substrate; Forming a plurality of data lines crossing the gate lines and defining a pixel area; Forming a thin film transistor at an intersection point of each gate line and data line; Forming a pixel electrode to be connected to the thin film transistor; Forming a color filter layer on the pixel electrode; And forming a light blocking layer in addition to the pixel region, and forming a light blocking layer by using a step between color filter layers, which is useful in a process since a separate mask for forming the light blocking layer is not required.

Light blocking layer, color filter

Description

Liquid crystal display panel manufacturing method {Method for fabricating liquid crystal display panel}

1 is a plan view of a typical liquid crystal display panel

FIG. 2 is a cross-sectional view taken along the line II ′ of FIG. 1.

3A to 3C are diagrams illustrating a manufacturing process of a color filter of a liquid crystal display panel according to the related art.

4 is a plan view of a liquid crystal display panel according to the present invention;

5 is a cross-sectional view taken along the line II ′ of FIG. 4.

FIG. 6 is a cross-sectional view taken along the line II-II ′ of FIG. 4.

7a to 7c is a manufacturing process of the color filter of the liquid crystal display panel according to the present invention

* Explanation of symbols for main parts of the drawings

1, 21: Gate wiring 2, 22: Data wiring

1a, 21a: gate electrode 2a, 22a: source electrode

2b, 22b: drain electrode 3, 23: thin film transistor

4, 24: gate insulating film 5: protective film

6, 28: pixel electrode 7, 30: light blocking layer                 

8, 29: color filter layer 9, 31: overcoat layer

10, 20: first substrate 11, 40: second substrate

12, 41: liquid crystal 25: semiconductor layer

26: ohmic contact layer 27: protective film

The present invention relates to a method for manufacturing a liquid crystal display panel, and more particularly, to implementing a color filter realized in a minimum process using an inter-color step without a separate mask in forming a light blocking layer.

The color filter manufacturing method of the liquid crystal display panel has a dye method and a pigment method according to the material of the organic filter used, and according to the manufacturing method, a dye method, a pigment dispersion method, an electrodeposition method (electrodeposition method) ), And print method.

A brief description of the color filter manufacturing method is as follows.

First, the dyeing method is a method of dyeing with a dyeing solution after exposing and developing the salt and photosensitive resin on a transparent substrate.

The pigment dispersion method can be classified into a method of applying a photosensitive color resin in which a pigment is dispersed in a photosensitive resin, followed by exposure and development, and a method of etching a non-photosensitive material in which a pigment is dispersed in a polyimide using a photoresist. .                         

The electrodeposition method is a method of dissolving or dispersing a polymer resin in a solvent and depositing it on an electrode electrochemically, and the printing method is a method of transferring an ink in which a pigment is dispersed in a resin.

In the conventional color filter manufacturing method, a black matrix for increasing contrast and blocking light is formed, and an R. G. B pattern is formed between the black matrices. In addition, the black matrix prevents an increase in leakage current of the thin film transistor by blocking direct light irradiation of the thin film transistor (TFT).

Hereinafter, the structure of the liquid crystal display panel (LCD) as described above and the manufacturing method of the color filter according to the prior art will be described.

1 illustrates a general liquid crystal display panel.

As shown in Fig. 1, the gate wiring 1 and the data wiring 2 are arranged vertically and horizontally. The pixel region is defined by the gate wiring 1 and the data wiring 2, and the actual liquid crystal panel is composed of many pixel regions. In the pixel area, a thin film transistor (3: thin film transistor) is formed at the intersection of the gate wiring 1 and the data wiring 2.

The thin film transistor 3 may include a gate electrode 1a formed with the gate wiring 1, a gate insulating film formed on the entire surface including the gate electrode 1a, a semiconductor layer formed on the gate insulating film, an ohmic contact layer, and the And a source electrode 2a and a drain electrode 2b formed together with the data wiring 2, and the gate electrode 1a and the source electrode 2a are formed on the gate wiring 1 and the data wiring 2, respectively. Connected.                         

FIG. 2 is a cross-sectional view taken along the line II ′ of FIG. 1, and the liquid crystal 12 is injected between the first substrate 10 and the second substrate 11. A gate insulating film 4 is formed on the first substrate 10. A data wiring 2 formed together with the source electrode and the drain electrode is formed on the gate insulating film 4, and the data wiring 2 and The passivation layer 5 is formed on the entire surface including the thin film transistor, and the pixel electrode 6 is formed as a transparent conductive layer on the pixel region in connection with the drain electrode. In addition to the pixel region, a light blocking layer 7 is formed, and a color filter layer 8 is formed on the pixel electrode 6 in the pixel region. Then, an overcoat layer 9 coated for the purpose of flattening the color filter layer 8 and removing the step difference between the overlapping portions of the light blocking layer 7 and the color filter layer 8 is formed.

3A to 3C are diagrams illustrating a process for manufacturing a color filter of a liquid crystal display panel according to the prior art.

As shown in FIG. 3A, the light blocking layer 7 pattern is formed in an outer region of the pixel region. In this case, the light blocking layer 7 needs to be aligned with the first substrate 10.

Subsequently, as illustrated in FIG. 3B, the color filter layer 8 is formed by electrodepositing R, G, and B colors through a coating, exposing, and developing process of the salt-sensitive photoresist, and as shown in FIG. 3C. The overcoat layer 9 of 8) is applied and binder coated.

However, the liquid crystal display panel manufacturing method according to the related art described above has the following problems.                         

First, when forming the light blocking layer, alignment with the substrate formed under the light blocking layer is required, and light leaks when mis-aligning.

Second, a separate mask for forming the light blocking layer is required.

Accordingly, an object of the present invention is to provide a method for manufacturing a liquid crystal display panel capable of minimizing the process by forming a light blocking layer using an inter-color step.

Another object of the present invention is to provide a method for manufacturing a liquid crystal display panel in which a color filter (COT) is formed on a substrate on which a thin film transistor array is formed.

A feature of the method for manufacturing a liquid crystal display panel according to the present invention for achieving the above object is to manufacture a liquid crystal display panel in which a liquid crystal is injected between a first substrate having an active region composed of a plurality of unit pixel regions and a second substrate. Forming a plurality of gate wirings on the first substrate; Forming a plurality of data lines crossing the gate lines and defining a pixel area; Forming a thin film transistor at an intersection point of each gate line and data line; Forming a pixel electrode to be connected to the thin film transistor; Forming a color filter layer on the pixel electrode; And forming a light blocking layer in addition to the pixel region.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

A preferred embodiment of the method of manufacturing a liquid crystal display panel according to the present invention will be described with reference to the accompanying drawings.

Hereinafter, the structure of the liquid crystal display panel as described above and the manufacturing method of the color filter according to the prior art will be described.

4 shows a liquid crystal display panel according to the present invention.

As shown in FIG. 4, the gate wiring 21 and the data wiring 22 are vertically and horizontally arranged. The pixel region is defined by the gate wiring 21 and the data wiring 22, and the actual liquid crystal panel is composed of an active region having a large number of unit pixel regions. In the pixel area, a thin film transistor 23 is formed at the intersection of the gate line 21 and the data line 22.

5 is a cross-sectional view taken along the line II ′ of FIG. 4.

As shown in FIG. 5, the thin film transistor includes a gate electrode 21a formed at the same time as the gate wiring 21 on the first substrate 20, a gate insulating layer 24 formed on the gate electrode 21a, and the gate. The source electrode 22a and the drain electrode 22b formed on the ohmic contact layer 26 simultaneously with the semiconductor layer 25, the ohmic contact layer 26, and the data wiring 22 that are sequentially formed on the insulating film 24. The gate electrode 21a and the source electrode 22a are connected to the gate wiring 21 and the data wiring 22, respectively.

The gate insulating film 24 is stacked over the entire first substrate 20 including the gate electrode 21a. A passivation layer 27 is formed on the entire surface including the thin film transistor 23, and the passivation layer 27 formed on the drain electrode 22b is exposed to a predetermined region and is connected to the drain electrode 22b by the exposed region. Thus, the pixel electrode 28 is formed on the pixel region as a transparent conductive film.

A color filter layer 29 is formed on the pixel electrode 28, that is, in the pixel region, and the thin film transistor 23, the gate wiring 21, and the data wiring 22 are adjacent to each other except the pixel region. The black matrix 30 is formed to prevent leakage of light.

FIG. 6 is a cross-sectional view taken along the line II-II 'of FIG. 4.

As shown in FIG. 6, the liquid crystal 41 is injected between the first substrate 20 and the second substrate 40. A gate insulating film 24 is formed on the first substrate 20. A data wiring 22 formed together with the source electrode and the drain electrode is formed on the gate insulating film 24. The data wiring 22 and The passivation layer 27 is formed on the entire surface including the thin film transistor, and the pixel electrode 28 is formed as a transparent conductive layer on the pixel region in connection with the drain electrode. In addition, a color filter layer 29 is formed on the pixel electrode 28 in the pixel region, and a light blocking layer 30 is formed in addition to the pixel region. Then, an overcoat layer 31 coated for the purpose of flattening the color filter layer 29 and removing a step difference between the overlapping portions of the light blocking layer 30 and the color filter layer 29 is formed.

7A to 7C are diagrams illustrating a process for manufacturing a color filter of a liquid crystal display panel according to the present invention.                     

A gate, data, 22, thin film transistor, protective film 27, and pixel electrode 28 are formed on the first substrate 20, and R, G, and B colors are formed on the TFT substrate. The filter layer 29 is formed.

The R, G, and B color filter layers 29 are formed by a printing method or an electrodeposition method.

Electrodeposition is a method of dissolving or dispersing a polymer resin in a solvent and electrochemically depositing it on an electrode. The substrate having the thin film transistor formed thereon is immersed in an aqueous solution to form a color filter layer of a first color. A color filter layer of a first color is formed on the pixel electrode 28 by applying a voltage to the gate electrode 21a and the pixel electrode 28 in the pixel portion of the portion where the color filter of the color is to be formed. A color filter layer of color and a color filter layer of third color are formed.

In the printing method, the color filter layer 29 is formed by transferring the upper portion of the ink pixel electrode 28 in which the pigment is dispersed in the resin.

Subsequently, as shown in FIG. 7B, the light blocking layer 30 is formed without any alignment by using a material such as resin by the step of the color filter layer 29.

Subsequently, as illustrated in FIG. 7C, the overcoat layer 31 is coated by a binder for the purpose of flattening the color filter layer 29 and removing a step difference between the overlapping portions of the light blocking layer 30 and the color filter layer 29. Patterning and cleaning are followed.

The light blocking layer 30 is formed of a resin or an organic insulating film.

In addition, another embodiment according to the present invention is applicable to a reflective LCD panel and a reflective / semi-transmissive LCD panel.

The liquid crystal display panel manufacturing method according to the present invention as described above is to form a light blocking layer using the inter-color step, it is useful in the process because it does not need a separate mask for forming the light blocking layer.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

Claims (4)

In manufacturing a liquid crystal display panel in which a liquid crystal is injected between a first substrate having an active region composed of a plurality of unit pixel regions and a second substrate, Forming a plurality of gate wirings on the first substrate; Forming a plurality of data lines crossing the gate lines and defining a pixel area; Forming a thin film transistor at an intersection point of each gate line and data line; Forming a pixel electrode to be connected to the thin film transistor; Forming a color filter layer on the pixel electrode by using a printing method; Forming a light blocking layer using an organic insulating layer in addition to the pixel region; And forming an overcoat layer on a resultant of forming the color filter layer and the light blocking layer. The method of claim 1, wherein the forming of the thin film transistor Forming a gate electrode on the first substrate when the gate wiring is formed; Forming a gate insulating film on an entire surface of the insulating substrate including the gate electrode; Forming a semiconductor layer on the gate insulating film; And forming a source / drain electrode on the semiconductor layer when the data line is formed on the gate insulating layer. delete delete

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