A manufacturing method for an array substrate with a fringe field switching (FFS) type thin film transistor (TFT) liquid crystal display (LCD) includes the following steps. A pattern of a gate line (1), a gate electrode, a common electrode (6) and a common electrode line (5) is formed by patterning a first transparent conductive film and a first metal film formed successively on a transparent substrate. Contact holes of the gate line in the pad area and a semiconductor pattern are formed through a patterning process after a gate insulator film, and a semiconductor film and a doped semiconductor film are formed successively. A second metal film is deposited and patterned. A second transparent conductive film is deposited and a lift-off process is performed. And then, a pattern of a source electrode, a drain electrode, a TFT channel and a pixel electrode (4) is formed by etching the exposed second metal film and the doped semiconductor film.
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1. A method for manufacturing an array substrate of a fringe-field switching (FFS) type thin film transistor liquid crystal display (TFT-LCD) comprising:
Step 1: forming a first transparent conductive film and a first metal film on a transparent substrate sequentially, and then patterning the stack of the first transparent conductive film and the first metal film so as to form patterns including gate lines, gate electrodes, common electrodes and common electrode lines;
Step 2: forming a gate insulating film, a semiconductor film and an impurity-doped semiconductor film sequentially, and then patterning the stack of the gate insulating film, the semiconductor film and the impurity-doped semiconductor film so as to form patterns including gate connection holes in the PAD region and a semiconductor layer; and
Step 3: Ruining a second metal film, patterning the second metal film, then forming a second transparent conductive film and performing a lifting-off process so as to remove the second transparent conductive film on photoresist, and etching the exposed second metal film and the impurity-doped semiconductor film so as to form patterns including source electrodes, drain electrodes, TFT channels and pixel electrodes.
5. A method for manufacturing an array substrate of a fringe-field switching (FFS) type thin field transistor liquid crystal display (TFT-LCD) comprising:
Step 100: forming a first transparent conductive film and a first metal film on a transparent substrate sequentially, and then patterning the stack of the first transparent conductive film and the first metal film so as to form patterns including gate lines, gate electrodes, pixel electrodes and common electrode lines;
Step 200: forming a gate insulating film, a semiconductor film and an impurity-doped semiconductor film sequentially, and then patterning the stack of the gate insulating film, the semiconductor film and the impurity-doped semiconductor film so as to form patterns including via holes, gate connection holes in the PAD region and a semiconductor layer; and
Step 300: depositing a second metal film, patterning the second metal film, then depositing a second transparent conductive film and performing a lifting-off process so as to remove the second transparent conductive film on photoresist, and etching the exposed second metal film and the impurity-doped semiconductor film so as to form patterns including source electrodes, drain electrodes. TFT channels and common electrodes.
2. The method for manufacturing an array substrate of an FFS type TFT-LCD according to
Step 11: depositing the first transparent conductive film and the first metal film on the transparent substrate sequentially;
Step 12: applying first photoresist, and performing an exposing and developing process by using a first half tone mask so that a photoresist-totally-remaining region of the first photoresist corresponds to regions of the gate lines, the gate electrodes and the common electrode lines of the array substrate, a photoresist-partially-exposed region corresponds to a region of the common electrodes of the array substrate, and a photoresist-totally-removed region corresponds to the other regions;
Step 13: performing a first etching process to remove the first metal film and the first transparent conductive film in the photoresist-totally-removed region and to form patterns including the gate lines, the gate electrodes, the common electrodes and the common electrode lines;
Step 14: performing an ashing process with respect to the first photoresist to expose the first metal film in the photoresist-partially-remaining region;
Step 15: performing a second etching process to remove the first metal film in the photoresist-partially-remaining region and expose the common electrodes; and
Step 16: peeling off the residual first photoresist.
3. The method for manufacturing an array substrate of an FFS type TFT-LCD according to
Step 21: depositing the gate insulating film, the semiconductor film and the impurity-doped semiconductor film on the structure in the step 1;
Step 22: applying second photoresist and performing an exposing and developing process by using a second half tone mask so that a photoresist-totally-remaining region of the second photoresist corresponds to a region of the TFT channels, a photoresist-totally-removed region corresponds to a region of the gate lines in the PAD region of the array substrate, and a photoresist-partially-remaining region corresponds to the other regions;
Step 23: performing a third etching process to remove the impurity-doped semiconductor film, the semiconductor film and the gate insulating film in the photoresist-totally-removed region, expose the gate lines in the PAD region and form patterns of connection holes of the gate lines in the PAD region and the gate insulating layer;
Step 24: performing an ashing process with respect to the second photoresist to expose the impurity-doped semiconductor film in the photoresist-partially-remaining region;
Step 25: performing a fourth etching process to remove the impurity-doped semiconductor film, the semiconductor film and the gate insulating film in the photoresist-partially-remaining region and form patterns including the semiconductor layer; and
Step 26: peeling off the residual second photoresist.
4. The method for manufacturing an array substrate of an FFS type TFT-LCD according to
Step 31: deposition a second metal film on the structure obtained in the step 2;
Step 32: applying third photoresist and performing an exposing and developing process by using a third half tone mask so that a photoresist-totally-removed region of the third photoresist corresponds to a region of the pixel electrodes of the array substrate, a photoresist-partially-remaining region corresponds to regions of the source electrodes, the drain electrodes, the gate lines in the PAD region, the data lines in the PAD region and the common electrode lines in the PAD region, and a photoresist-totally-remaining region corresponds to the other regions;
Step 33: performing a fifth etching process to remove the second metal film in the photoresist-totally-removed region;
Step 34: performing an ashing process with respect to the third photoresist to expose the second metal film in the photoresist-partially-remaining region;
Step 35: deposition a second transparent conductive film;
Step 36: performing a lifting-off process to remove the second transparent conductive film on the residual third photoresist and form the pattern of the pixel electrodes; and
Step 37: performing a sixth etching process to remove the exposed second metal film and the exposed impurity-doped semiconductor film and form patterns of the source electrodes, the drain electrodes and the TFT channels.
6. The method for manufacturing an array substrate of an FFS type TFT-LCD according to
Step 1100: depositing the first transparent conductive film and the first metal film on the transparent substrate sequentially;
Step 1200: applying first photoresist, and performing an exposing and developing process by using a first half tone mask so that a photoresist-totally-remaining region of the first photoresist corresponds to regions of the gate lines, the gate electrodes and the common electrode lines of the array substrate, a photoresist-partially-exposed region corresponds to a region of the pixel electrodes of the array substrate, and a photoresist-totally-removed region corresponds to the other regions;
Step 1300: performing a first etching process to remove the first metal film and the first transparent conductive film in the photoresist-totally-removed region and to form patterns including the gate lines, the gate electrodes, the pixel electrodes and the common electrode lines;
Step 1400: performing an ashing process with respect to the first photoresist to expose the first metal film in the photoresist-partially-remaining region;
Step 1500: performing a second etching process to remove the first metal film in the photoresist-partially-remaining region and expose the pixel electrodes; and
Step 1600: peeling off the residual first photoresist.
7. The method for manufacturing an array substrate of an FFS type TFT-LCD according to
Step 2100: depositing the gate insulating film, the semiconductor film and the impurity-doped semiconductor film on the structure in the step 100;
Step 2200: applying second photoresist and performing an exposing and developing process by using a second half tone mask so that a photoresist-totally-remaining region of the second photoresist corresponds to a region of the TFT channels, a photoresist-totally-removed region corresponds to a region of the via holes and the gate lines in the PAD region of the array substrate, and a photoresist-partially-remaining region corresponds to the other regions;
Step 2300: performing a third etching process to remove the impurity-doped semiconductor film, the semiconductor film and the gate insulating film in the photoresist-totally-removed region, expose a part of the pixel electrodes and the gate lines in the PAD region and form patterns of via holes, the connection holes of the gate lines in the PAD region and the gate insulating layer;
Step 2400: performing an ashing process with respect to the second photoresist to expose the impurity-doped semiconductor film in the photoresist-partially-remaining region;
Step 2500: performing a fourth etching process to remove the impurity-doped semiconductor film, the semiconductor film and the gate insulating film in the photoresist-partially-remaining region and form patterns including the semiconductor layer; and
Step 2600: peeling off the residual second photoresist.
8. The method for manufacturing an array substrate of an FFS type TFT-LCD according to
Step 3100: deposition a second metal film on the structure obtained in the step 200;
Step 3200: applying third photoresist and performing an exposing and developing process by using a third half tone mask so that a photoresist-totally-removed region of the third photoresist corresponds to a region of the common electrodes of the array substrate, a photoresist-partially-remaining region corresponds to regions of the source electrodes, the drain electrodes, the gate lines in the PAD region, the data lines in the PAD region and the common electrode lines in the PAD region, and a photoresist-totally-remaining region corresponds to the other regions;
Step 3300: performing a fifth etching process to remove the second metal film in the photoresist-totally-removed region;
Step 3400: performing an ashing process with respect to third the photoresist to expose the second metal film in the photoresist-partially-remaining region;
Step 3500: deposition a second transparent conductive film;
Step 3600: performing a lifting-off process to remove the second transparent conductive film on the residual third photoresist and form patterns of the common electrodes and connection lines for connecting the drain electrodes and the pixel electrodes; and
Step 3700: performing a sixth etching process to remove the exposed second metal film and the exposed impurity-doped semiconductor film and form patterns including the source electrodes, the drain electrodes and the TFT channels.
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The present invention relates to a method for manufacturing an array substrate of a fringe-field switching (FFS) type thin film transistor liquid crystal display (TFT-LCD).
Thin film transistor liquid crystal display devices (TFT-LCDs) are a main kind of flat panel display devices (FPDs).
Based on the direction of the electrical field for driving the liquid crystal material, TFT-LCDs can be divided into a vertical field type and a horizontal field type. For the vertical field type TFT-LCDs, it is necessary to form pixel electrodes on an array substrate and form common electrodes on a color filter substrate. However, for the horizontal field type TFT-LCD, it is necessary to form both pixel electrodes and common electrodes on the array substrate. As a result, during manufacturing the array substrate of a horizontal field type TFT-LCD, as compared with the array substrate of a vertical field type TFT-LCD, one additional masking process for forming the common electrodes is required. The vertical field type TFT-LCDs include twist nematic (TN) type TFT-LCDs; the horizontal field type TFT-LCDs include fringe field switching (FFS) type TFT-LCDs and in-plane switching (IPS) type TFT-LCDs. The horizontal field type TFT-LCDs, especially FFS type TFT-LCDs, have advantages of wide viewing angle, high aperture ratio and the like, and are applied widely to the field of the liquid crystal display device.
Currently, the array substrate of an FFS type TFT-LCD is manufactured by forming structural patterns with a plurality of patterning processes, each of which in turn comprises processes of exposing photoresist by using a mask, developing, etching, removing the remaining photoresist, and the like. The etching process may comprise dry etching and wet etching. Therefore, the complexity of the process for manufacturing the array substrate of a TFT-LCD is evaluated by the number of patterning processes, and thus reducing of the number of pattern processes would result in a decreased cost. The six-pattern-process for manufacturing the array substrate of an FFS type TFT-LCD in the prior art comprises: patterning of a common electrode, patterning of gate lines and gate electrodes, patterning of an active layer, patterning of source electrodes/drain electrodes, patterning of via holes, and patterning of pixel electrodes.
The four-pattern-processes in the prior art for manufacturing the array substrate of an FFS type TFT-LCD is conducted as follows.
Step 1, depositing a first metal film, and forming patterns of gate lines, common electrodes and gate electrodes by a first patterning process by using an ordinary mask plate;
Step 2, depositing a gate insulating film and an active layer (a semiconductor layer and an impurity-doped semiconductor layer) film, and forming patterns of the active layer by a second patterning process by using an ordinary mask plate;
Step 3, sequentially depositing a first transparent conductive film and a second metal film, and forming patterns of pixel electrodes, source electrodes, drain electrodes and TFT channels by a third patterning process by using a dual-tone mask plate; and
Step 4, depositing a passivation layer and a second transparent conductive layer, and forming patterns of the passivation layer, connection holes (for connecting the common electrodes and the common electrode lines), connection holes in a PAD region (the PAD region is a region for bonding wires of a driving circuit board to the array substrate, and the wires can be connected electrically to the gate lines, the data lines, the common electrode lines and the like through the connection holes in the PAD region), and the common electrodes by a fourth patterning process by using a dual-tone mask plate.
According to one embodiment of the invention, a method for manufacturing an array substrate of an FFS type TFT-LCD is provided. The method comprises: step 1: forming a first transparent conductive film and a first metal film on a transparent substrate sequentially, and then patterning the stack of the first transparent conductive film and the first metal film so as to form patterns including gate lines, gate electrodes, common electrodes and common electrode lines; step 2: forming a gate insulating film, a semiconductor film and an impurity-doped semiconductor film sequentially, and then patterning the stack of the gate insulating film, the semiconductor film and the impurity-doped semiconductor film so as to form patterns including gate connection holes in the PAD region and a semiconductor layer; step 3: forming a second metal film, patterning the second metal film, then forming a second transparent conductive film and performing a lifting-off process so as to remove the second transparent conductive film on photoresist, and etching the exposed second metal film and the impurity-doped semiconductor film so as to form patterns including source electrodes, drain electrodes, TFT channels and pixel electrodes.
According to another embodiment, a method for manufacturing an array substrate of an FFS type TFT-LCD is provided. The method comprises: Step 100: forming a first transparent conductive film and a first metal film on a transparent substrate sequentially, and then patterning the stack of the first transparent conductive film and the first metal film so as to form patterns including gate lines, gate electrodes, pixel electrodes and common electrode lines; Step 200: forming a gate insulating film, a semiconductor film and an impurity-doped semiconductor film sequentially, and then patterning the stack of the gate insulating film, the semiconductor film and the impurity-doped semiconductor film so as to form patterns including via holes, gate connection holes in the PAD region and a semiconductor layer; Step 300: depositing a second metal film, patterning the second metal film, then depositing a second transparent conductive film and performing a lifting-off process so as to remove the second transparent conductive film on photoresist, and etching the exposed second metal film and the impurity-doped semiconductor film so as to form patterns including source electrodes, drain electrodes, TFT channels and common electrodes.
Hereinafter, embodiments of the invention will be described in detail with reference to the accompanying drawings so that the objectives, technical solutions and advantages of the embodiments of the invention will become more apparent. It should be noted that the embodiments described below merely are a portion of but not all of the embodiments of the invention, and those skilled in the relevant art may obtain other embodiments on basis of the described embodiments without creative work, and these embodiments are still within the spirit and scope of the invention.
In the four-pattern-processes of the method for manufacturing the array substrate of a liquid crystal display device in the prior art, although patterns of the pixel electrodes, the source electrodes, the drain electrodes and the TFT channels are obtained by one patterning process, the inventors during practice of the method noted that this can result in a defect of decreasing the display performance of the liquid crystal display device.
In the following, this defect is described with reference to
As shown in
As shown in
It can be seen from
Step 1: forming a first transparent conductive film and a first metal film on a transparent substrate sequentially, and then patterning the stacked layers of the first transparent conductive film and the first metal film so as to form patterns including gate lines, gate electrodes, common electrodes and common electrode lines;
Step 2: forming a gate insulating film, a semiconductor film and an impurity-doped semiconductor film sequentially, and then patterning the stack of the gate insulating film, the semiconductor film and the impurity-doped semiconductor film so as to form patterns including gate connection holes in the PAD region and a semiconductor layer; and
Step 3: forming a second metal film, patterning the second metal film, then forming a second transparent conductive film and performing a lifting-off process so as to remove the second transparent conductive film on photoresist, and etching the exposed second metal film and the impurity-doped semiconductor film so as to form patterns including source electrodes, drain electrodes, TFT channels and pixel electrodes.
In the method for manufacturing the array substrate of the FFS type TFT-LCD according to the embodiment of the invention, the array substrate of the FFS type TFT-LCD is fabricated by using three patterning processes. The number of the processes is reduced so that the cost is reduced and the market competitive power can be improved.
In the following, an example of the method for manufacturing the array substrate of the FFS type TFT-LCD according to the first embodiment of the invention is described in details with reference to
Firstly, a first patterning process of the method for manufacturing the array substrate of the FFS type TFT-LCD according to the first embodiment of the invention is described in details with reference to
Step 11: depositing a first transparent conductive film 100 and a first metal film 200 on a transparent substrate 10 sequentially, as shown in
The first transparent conductive film 100 and the first metal film 200 can be deposited sequentially on the transparent substrate 10 (for example, a glass substrate or a silica substrate) by using a plasma enhanced chemical vapor deposition (PECVD), magnetism controlled sputter, thermal evaporation or the other film-forming method. The first transparent conductive film 100 can be made of transparent conductive material such as ITO, IZO or the like. The first metal film 200 can be a single layer film of a metal such as Molybdenum, Aluminum, Neodymium and Aluminum alloy, Tungsten, Chromium, Copper or the like, or multiple layers film by depositing the above metals in layers.
Step 12: applying a layer of photoresist 1000 on the structure in
Step 13: performing a first etching process with respect to the structure in
Step 14: performing an ashing process with respect to the photoresist 1000 in
Step 15: performing a second etching process with respect to the structure in
Step 16: removing the residual photoresist 1000 in the structure in
The first patterning process is completed through the steps 11 to 16.
In the following, a second patterning process of the method for manufacturing the array substrate of the FFS type TFT-LCD according to the first embodiment of the invention is described in details with reference to
Step 21: depositing a gate insulating film 300, a semiconductor film 400 and an impurity-doped semiconductor film 500 on the structure in
Step 22: applying a layer of photoresist 2000 to the structure in
Step 23: performing a third etching process with respect to the structure in
Step 24: performing an ashing process with respect to the photoresist 2000 in
Step 25: performing a fourth etching process with respect to the structure in
Step 26: peeling off the residual photoresist 2000 in
The second patterning process is completed through the steps 21 to 26.
In the following, a third patterning process of the method for manufacturing the array substrate of the FFS type TFT-LCD according to the first embodiment of the invention is described in details with reference to
Step 31: deposition a second metal film 600 on the structure in
Step 32: applying a layer of photoresist 3000 on the structure in
Step 33: performing a fifth etching process with respect to the structure in
Step 34: performing an ashing process with respect to the photoresist 3000 in
Step 35: deposition a second transparent conductive film 700 on the structure in
Step 36: performing a lifting-off process with respect to the structure in
Step 37: performing a sixth etching process with respect to the structure in
It is can be seen from the steps 31 to 37 in the third patterning process according to the embodiment of the invention that, the second metal film is deposited firstly and then the second transparent conductive layer is deposited. In other words, the source electrodes and the drain electrodes are formed on the TFT channels and the pixel electrodes are form on the drain electrodes. Therefore, no transparent conductive portion is formed between a source electrode and an active layer (the impurity-doped semiconductor layer and the semiconductor layer), so the signals on the data lines can be transmitted into the TFT channels directly by the source electrodes, and are not blocked by the transparent portion, which would improve the displaying quality of the liquid crystal display device.
Step 100: forming a first transparent conductive film and a first metal film on a transparent substrate sequentially, and then patterning the stack of the first transparent conductive film and the first metal film so as to form patterns including gate lines, gate electrodes, pixel electrodes and common electrode lines;
Step 200: forming a gate insulating film, a semiconductor film and an impurity-doped semiconductor film sequentially, and then patterning the stack of the gate insulating film, the semiconductor film and the impurity-doped semiconductor film so as to form patterns including via holes, gate connection holes in the PAD region and a semiconductor layer;
Step 300: depositing a second metal film, patterning the second metal film, then depositing a second transparent conductive film and performing a lifting-off process so as to remove the second transparent conductive film on the photoresist, and etching the exposed second metal film and the impurity-doped semiconductor film so as to form patterns including source electrodes, drain electrodes, TFT channels and pixel electrodes.
In the method for manufacturing the array substrate of the FFS type TFT-LCD according to the embodiment of the invention, the array substrate of the FFS type TFT-LCD is fabricated by using three patterning processes. The number of the processes is reduced so that the cost is reduced and the market competitive power is improved.
In the following, an example of the method for manufacturing the array substrate of the FFS type TFT-LCD according to the second embodiment of the invention is described in details with reference to
Firstly, a first patterning process of the method for manufacturing the array substrate of the FFS type TFT-LCD according to the second embodiment of the invention is described in details with reference to
Step 1100: depositing a first transparent conductive film 100 and a first metal film 200 on a transparent substrate 10 sequentially, as shown in
The first transparent conductive film 100 and the first metal film 200 can be deposited sequentially on the transparent substrate 10 (for example, a glass substrate or a silica substrate) by using a plasma enhanced chemical vapor deposition (PECVD), magnetism controlled sputter, thermal evaporation or the other film-forming method. The first transparent conductive film 100 can be made of transparent conductive material such as ITO, IZO or the like. The firs metal film 200 can be a single layer film of a metal such as Molybdenum, Aluminum, Neodymium and Aluminum alloy, Tungsten, Chromium, Copper or the like, or multiple layers film by depositing the above metals in layers.
Step 1200: applying a layer of photoresist 1000 on the structure in
Step 1300: performing a first etching process with respect to the structure in
Step 1400: performing an ashing process with respect to the photoresist 1000 in
Step 1500: performing a second etching process with respect to the structure in
Step 1600: removing the residual photoresist 1000 in the structure in
The first patterning process is completed through the steps 1100 to 1600.
In the following, a second patterning process of the method for manufacturing the array substrate of the FFS type TFT-LCD according to the second embodiment of the invention is described in details with reference to
Step 2100: depositing a gate insulating film 300, a semiconductor film 400 and an impurity-doped semiconductor film 500 on the structure in
Step 2200: applying a layer of photoresist 2000 to the structure in
Step 2300: performing a third etching process with respect to the structure in
Step 2400: performing an ashing process with respect to the photoresist 2000 in
Step 2500: performing a fourth etching process with respect to the structure in
Step 2600: peeling off the residual photoresist 2000 in
The second patterning process is completed through the steps 2100 to 2600.
In the following, a third patterning process of the method for manufacturing the array substrate of the FFS type TFT-LCD according to the second embodiment of the invention is described in details with reference to
Step 3100: deposition a second metal film 600 on the structure in
Step 3200: applying a layer of photoresist 3000 on the structure in
Step 3300: performing a fifth etching process with respect to the structure in
Step 3400: performing an ashing process with respect to the photoresist 3000 in
Step 3500: deposition a second transparent conductive film 700 on the structure in
Step 3600: performing a lifting-off process with respect to the structure in
Step 3700: performing a sixth etching process with respect to the structure in
In the method for manufacturing the array substrate of the FFS type TFT-LCD according to the embodiments of the invention, no passivation layer is formed, thus the material is reduced and the array substrate can be lighter. In addition, since there is no passivation layer on the array substrate, the obtained liquid crystal display can realize given rotation requirement of the liquid crystal material by using lower driving voltage.
Here, it should be noted that, the patterning or the patterning process described can include the processes of applying the photoresist, exposing the photoresist by using a mask, developing the obtain photoresist pattern, etching by using the photoresist pattern, peeling off the residual photoresist or the like. In the above description, positive type photoresist is described as an example. If negative type photoresist is used, then after developing, the photoresist in the totally exposed region is totally left, the photoresist in the unexposed region is totally removed, and the photoresist in the partially exposed region is partially left.
The terms of “a region” or “the region” here is a region in which a pattern is mapped on the array substrate. In other words, the region has the same shape as that of the pattern. For example, the region of the gate lines is a region in which the pattern of the gate lines is mapped on the array substrate, or a region in which the pattern of the gate lines is disposed on the array substrate.
It should be appreciated that the embodiments described above are intended to illustrate but not limit the present invention. Although the present invention has been described in detail herein with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified and some of the technical features can be equivalently substituted without departing from the spirit and scope of the present invention.
Yoo, Seongyeol, Song, Youngsuk, Choi, Seungjin
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