CN106950733A - Color membrane substrates and preparation method thereof - Google Patents

Abstract

The present invention provides a kind of color membrane substrates and preparation method thereof.The color membrane substrates include：Underlay substrate, solar power generation layer on the underlay substrate, the color blocking block of the multiple array arrangements separated on the underlay substrate and by the solar power generation interlayer, organic planarization layer on the color blocking block and solar power generation layer, public electrode in the organic planarization layer, and the chock insulator matter on the public electrode, by using solar power generation layer substitution black matrix", can be on the premise of liquid crystal display panel normal work not be influenceed, electric energy is produced by solar power generation layer, the mobile electricity consumption display device of auxiliary is powered, the endurance of the mobile electricity consumption display device of lifting.

Description

Color membrane substrates and preparation method thereof

Technical field

The present invention relates to display technology field, more particularly to a kind of color membrane substrates and preparation method thereof.

Background technology

With the development of Display Technique, the plane such as liquid crystal display (Liquid Crystal Display, LCD) display dress Put because having the advantages that high image quality, power saving, fuselage is thin and has a wide range of application, and be widely used in mobile phone, TV, individual number The various consumption electronic products such as word assistant, digital camera, notebook computer, desktop computer, as the master in display device Stream.

Liquid crystal display device on existing market is largely backlight liquid crystal display, it include liquid crystal display panel and Backlight module (backlight module).The operation principle of liquid crystal display panel is put among the parallel glass substrate of two panels Putting has many tiny electric wires vertically and horizontally in the middle of liquid crystal molecule, two panels glass substrate, liquid crystal is controlled by whether being powered Molecular changes direction, generation picture is reflected by the light of backlight module.

Usual liquid crystal display panel is by color film (CF, Color Filter) substrate, thin film transistor (TFT) (TFT, Thin Film Transistor) array base palte, the liquid crystal (LC, the Liquid that are sandwiched between color membrane substrates and thin-film transistor array base-plate Crystal) and sealing glue frame (Sealant) composition, its moulding process generally comprises：Leading portion array (Array) processing procedure (film, Gold-tinted, etching and stripping), stage casing (drives into box (Cell) processing procedure (TFT substrate and CF baseplate-laminatings) and back segment module group assembling processing procedure Dynamic IC is pressed with printed circuit board (PCB)).Wherein, leading portion Array processing procedures are mainly to form TFT substrate, in order to control liquid crystal molecule Motion；Stage casing Cell processing procedures mainly add liquid crystal between TFT substrate and CF substrates；Back segment module group assembling processing procedure is mainly IC pressings and the integration of printed circuit board (PCB) are driven, and then drives liquid crystal molecule to rotate, display image.

With the fast development of mobile Internet, the Intelligent mobile equipment such as smart mobile phone has become must not in people's life The equipment that can lack, but the mobile electricity consumption display device such as Intelligent mobile equipment is generally supplied using built-in rechargeable battery at present Electricity, endurance can not generally meet people's demand, Intelligent mobile equipment power consumption at most be exactly display screen.Traditional intelligence In the liquid crystal display panel of mobile device, it will usually make one layer of black matrix" (BM, Black in color membrane substrates side Matrix), its function is only limitted to split adjacent color blocking, blocks the space of color, prevents light leak or colour mixture, and function is not rich enough Richness, the space failed in correspondence display panel is sufficiently utilized.

The content of the invention

It is an object of the invention to a kind of color membrane substrates, the endurance of mobile electricity consumption display device can be lifted, is lifted Product competitiveness and Consumer's Experience.

The present invention also aims to a kind of preparation method of color membrane substrates, the continuous of mobile electricity consumption display device can be lifted Boat ability, lifting product competitiveness and Consumer's Experience.

To achieve the above object, the invention provides a kind of color membrane substrates, including：Underlay substrate, located at the substrate base Solar power generation layer on plate, the multiple array arrangements separated on the underlay substrate and by the solar power generation interlayer Color blocking block, located at the color blocking block and solar power generation layer on organic planarization layer, the public affairs in the organic planarization layer Common electrode and the chock insulator matter on the public electrode；

The solar power generation layer includes：Anode on the underlay substrate, the semiconductor on the anode Layer and the negative electrode on the semiconductor layer, are formed with the first via and the second via in the organic planarization layer, and described the One via exposes a part for the anode, and second via exposes a part for the negative electrode.

The underlay substrate includes：Viewing area and the non-display area for surrounding the viewing area, first via and the Two vias are respectively positioned in the non-display area.

The material of the anode is transparent conductive oxide, and the material of the negative electrode is metal.

The material of the public electrode is ITO.

The present invention also provides a kind of preparation method of color membrane substrates, comprises the following steps：

Step S1, one underlay substrate of offer, form solar power generation layer, the solar power generation on the underlay substrate Layer includes：Anode on the underlay substrate, the semiconductor layer on the anode and on the semiconductor layer Negative electrode, the vacancy section of multiple array arrangements is formed with solar power generation layer；

The color blockings of multiple array arrangements is formed in step S2, the vacancy section of solar power generation layer on underlay substrate Block；

Step S3, the color blocking block and solar power generation layer on sequentially form organic flatness layer and public electrode；

The first via and the second via are formed with the organic planarization layer, first via exposes the anode A part, second via exposes a part for the negative electrode；

Step S4, on the public electrode form chock insulator matter.

The step S1 is specifically included：

Step S11, anode film, semiconductive thin film and cathode thin film are sequentially depositing on the underlay substrate, are formed Solar power generation film；

Step S12, the solar power generation film is patterned by one of halftone mask or gray-level mask, shape is treated in removal Whole solar power generation films in the region of quality stop block, remove semiconductive thin film in the region of anode contact to be formed and Cathode thin film, obtains solar power generation layer.

The step S1 is specifically included：

Step S11 ', it is deposited and patterned anode film on the underlay substrate, removes the region of color blocking block to be formed Interior anode film, obtains anode；

Step S12 ', semiconductive thin film and cathode thin film are sequentially depositing on the anode and underlay substrate；

Step S13 ', the semiconductive thin film and cathode thin film patterned by one light shield simultaneously, remove color to be formed The region of stop block and semiconductive thin film and cathode thin film in the region of anode contact to be formed, obtain solar power generation layer.

The step 3 is specifically included：

Step S31, the color blocking block and solar power generation layer on organic planarization layer film is deposited and patterned, had Machine flatness layer, the first via and the second via, first via expose the one of the anode through the organic planarization layer Part, second via, which runs through, is located at one that the organic planarization layer treated in the region of anode contact exposes the negative electrode Point；

Step S32, the deposition public electrode film in the organic planarization layer, pattern the public electrode film, go Except the public electrode film above first via and the second via, public electrode is obtained.

The underlay substrate includes：Viewing area and the non-display area for surrounding the viewing area, first via and the Two vias are respectively positioned in the non-display area.

The material of the anode is transparent conductive oxide, and the material of the negative electrode is metal.

Beneficial effects of the present invention：The color membrane substrates of the present invention include：Underlay substrate, on the underlay substrate too Positive energy electric layer, the color blocking of the multiple array arrangements separated on the underlay substrate and by the solar power generation interlayer Block, located at the color blocking block and solar power generation layer on organic planarization layer, the public electrode in the organic planarization layer, And the chock insulator matter on the public electrode, by using solar power generation layer substitution black matrix", it can not influence On the premise of liquid crystal display panel normal work, electric energy is produced by solar power generation layer, the mobile electricity consumption display device of auxiliary enters Row power supply, the endurance of the mobile electricity consumption display device of lifting.The preparation method of the color membrane substrates of the present invention, by using the sun Energy electric layer substitution black matrix", can pass through solar power generation on the premise of liquid crystal display panel normal work is not influenceed Layer produces electric energy, and the mobile electricity consumption display device of auxiliary is powered, the endurance of the mobile electricity consumption display device of lifting

Brief description of the drawings

In order to be able to be further understood that the feature and technology contents of the present invention, refer to below in connection with the detailed of the present invention Illustrate and accompanying drawing, however accompanying drawing only provide with reference to and explanation use, not for being any limitation as to the present invention.

In accompanying drawing,

Fig. 1 to Fig. 4 is the schematic diagram of the step 1 of the preparation method of the color membrane substrates of the present invention；

Fig. 5 is the schematic diagram of the step 2 of the preparation method of the color membrane substrates of the present invention；

Fig. 6 to Fig. 7 is the schematic diagram of the step 3 of the preparation method of the color membrane substrates of the present invention；

Fig. 8 for the present invention color membrane substrates preparation method step 4 schematic diagram and the present invention color membrane substrates knot Structure schematic diagram；

Fig. 9 is the structural representation of the liquid crystal display panel of the color membrane substrates using the present invention；

Figure 10 is the top view of the color membrane substrates of the present invention；

Figure 11 is the flow chart of the preparation method of the color membrane substrates of the present invention.

Embodiment

Further to illustrate the technological means and its effect of the invention taken, below in conjunction with being preferable to carry out for the present invention Example and its accompanying drawing are described in detail.

Referring to Fig. 8, and combine Fig. 9, the present invention provides a kind of color membrane substrates, including：Underlay substrate 1, located at the lining On substrate 1 solar power generation layer 2, on the underlay substrate 1 and by the solar power generation layer 2 be spaced apart it is multiple The color blocking block 3 of array arrangement, located at the color blocking block 3 and solar power generation layer 2 on organic planarization layer 5, located at described organic Public electrode 6 on flatness layer 5 and the chock insulator matter 7 on the public electrode 6.

Specifically, as shown in figure 8, solar power generation layer 2 includes：Anode 21 on the underlay substrate 1, set In the semiconductor layer 22 on the anode 21 and the negative electrode 23 on the semiconductor layer 22.

Wherein, the material of the anode 21 can be doped zinc oxide aluminium (AZO), zinc oxide boron-doping (BZO), indium-zinc oxide (IZO), the transparent conductive oxide such as indium tin oxide (ITO), the material of the semiconductor layer 22 can be non-crystalline silicon, copper and indium gallium Selenium, cadmium antimonide, GaAs, dyestuff etc., the material of the negative electrode 23 can be one or more in the metals such as molybdenum and aluminium Combination.

Specifically, the color blocking block 3 may include：It is repeated in the red, green and blue color blocking block of arrangement, and institute State color blocking block 3 and be not limited to above-mentioned red, green and blue three kinds of colors, it may also be necessary to including yellow, cyan, And white etc. other colors color blocking block.

Specifically, the material of the public electrode 6 can be transparent for tin indium oxide (Indium tin oxide ITO) etc. Conductive material.

Further, the solar power generation layer 2 had both possessed the shade function of traditional black matrix", was also equipped with utilizing ring The function that border light generates electricity, the electricity sent using solar power generation layer 2 is that the battery of mobile electricity consumption display device charges, And then extend the cruising time of the mobile electricity consumption display device, lift Consumer's Experience.

Further, the first via 24 and the second via 25, first via 24 are formed with the organic planarization layer 5 A part for the anode 21 is exposed, second via 25 exposes a part for the negative electrode 23, passes through the first via 24 and second the formation solar power generation of via 25 layer 2 anode contact and cathode contact, by will mobile electricity consumption display device Battery is connected in anode contact and cathode contact, realizes by solar power generation layer 2 to be that battery charges, to extend the movement The cruising time of electricity consumption display device.

Specifically, as shown in Figure 10, the underlay substrate 1 includes：Viewing area 11 and surround the non-of the viewing area 11 Viewing area 12, the via 25 of the first via 24 and second is respectively positioned in the non-display area 12.

Specifically, as shown in figure 9, by the way that to composition box, and color membrane substrates and the array base palte of the present invention are passed through into glue frame Glue frame 100 seals and pours into liquid crystal, you can obtain a liquid crystal display panel, realizes that picture is shown, the array base palte is using existing There is technology, the structure such as TFT layer 101 and pixel electrode 102 can be included.

Figure 11 is referred to, a kind of preparation method of color membrane substrates comprises the following steps：

Step S1, one underlay substrate 1 of offer, form solar power generation layer 2, the solar energy on the underlay substrate 1 Electric layer 2 includes：Anode 21 on the underlay substrate 1, the semiconductor layer 22 on the anode 21 and located at institute State the vacancy section that multiple array arrangements are formed with the negative electrode 23 on semiconductor layer 22, the solar power generation layer 2.

Specifically, as shown in Figures 1 to 4, the step S1 is specifically included：Step S11 ', as depicted in figs. 1 and 2, in institute State and anode film 21 ' is deposited and patterned on underlay substrate 1, remove the anode film 21 ' in the region of color blocking block to be formed, obtain To anode 21；Step S12 ', as shown in figure 3, be sequentially depositing on the anode 21 and underlay substrate 1 semiconductive thin film 22 ' and Cathode thin film 23 '；Step S13 ', as shown in figure 4, patterning the semiconductive thin film 22 ' and negative electrode simultaneously by one light shield Film 23 ', removes the region of color blocking block to be formed and semiconductive thin film 22 ' and negative electrode in the region of anode contact to be formed is thin Film 23 ', obtains solar power generation layer 2.

Further, to simplify Making programme, light shield quantity is reduced, the step S1 can also use following steps：Step Rapid S11, on the underlay substrate 1 anode film 21 ', semiconductive thin film 22 ' and cathode thin film 23 ' are sequentially depositing, are formed Solar power generation film 2 '；Step S12, pass through one of halftone mask or gray-level mask and pattern the solar power generation film 2 ', whole solar power generation films 2 ' in the region of color blocking block to be formed are removed, in the region for removing anode contact to be formed Semiconductive thin film 22 ' and cathode thin film 23 ', obtain solar power generation layer 2.

Specifically, the material of the anode 21 can be doped zinc oxide aluminium, zinc oxide boron-doping, indium-zinc oxide, indium tin oxygen The transparent conductive oxides such as compound, the material of the semiconductor layer 22 can for non-crystalline silicon, CIGS, cadmium antimonide, GaAs, Dyestuff etc., the material of the negative electrode 23 can be one or more combinations in the metals such as molybdenum and aluminium.

Specifically, the solar power generation layer 2 had both possessed the shade function of traditional black matrix", was also equipped with utilizing environment The function that light generates electricity, the electricity sent using solar power generation layer 2 is that the battery of mobile electricity consumption display device charges, and is entered And extend the cruising time of the mobile electricity consumption display device, lift Consumer's Experience.

Step S2, referring to Fig. 5, on underlay substrate 1 the solar power generation layer 2 vacancy section in form multiple battle arrays Arrange the color blocking block 3 of arrangement.

Specifically, the color blocking block 3 includes：Red, green and blue color blocking block, it is red by being coated with respectively during making Color color blocking simultaneously patterns and obtains red color resistance block, is coated with green color blocking and patterns and obtains green color blocking block, is coated with blue color blocking And patterning obtains blue color blocking block.

It is understood that the color blocking block 3 is not limited to above-mentioned red, green and blue three kinds of colors, it is necessary When can also include the color blocking block of other colors such as yellow, cyan and white.

Step S3, Fig. 6 and Fig. 7 are referred to, sequentially formed on the color blocking block 3 and solar power generation layer 2 organic flat Layer 5 and public electrode 6；

The first via 24 and the second via 25 are formed with the organic planarization layer 5, first via 24 exposes institute A part for anode 21 is stated, second via 25 exposes a part for the negative electrode 23.

Specifically, the step S3 is specifically included：Step S31, as shown in fig. 6, in the color blocking block 3 and solar power generation Organic planarization layer film is deposited and patterned on layer 2, organic planarization layer 5, the first via 24 and the second via 25 is obtained, it is described First via 24 exposes a part for the anode 21 through the organic planarization layer 5, and second via 25 runs through and is located at Treat that the organic planarization layer 5 in the region of anode contact exposes a part for the negative electrode 23；Step S32, as shown in fig. 7, Deposition public electrode film in the organic planarization layer 5, the patterning public electrode film, removal first via 24, And the public electrode film of the top of the second via 25, obtain public electrode 6.

Specifically, the material of the public electrode 6 is the transparent conductive materials such as ITO.

Specifically, as shown in Figure 10 and shown in Fig. 8, the underlay substrate 1 includes：Viewing area 11 and the encirclement display The non-display area 12 in area 11, the via 25 of the first via 24 and second is respectively positioned in the non-display area 12.

Step S4, the formation chock insulator matter 17 on the public electrode 6.

In summary, color membrane substrates of the invention include：Underlay substrate, the solar power generation on the underlay substrate Layer, separated on the underlay substrate and by the solar power generation interlayer multiple array arrangements color blocking block, located at institute State color blocking block and the organic planarization layer on solar power generation layer, the public electrode in the organic planarization layer and be located at Chock insulator matter on the public electrode, by using solar power generation layer substitution black matrix", can not influence liquid crystal display On the premise of panel normal work, electric energy is produced by solar power generation layer, the mobile electricity consumption display device of auxiliary is powered, carried Rise the endurance of mobile electricity consumption display device.The preparation method of the color membrane substrates of the present invention, by using solar power generation layer Replace black matrix", electricity can be produced by solar power generation layer on the premise of liquid crystal display panel normal work is not influenceed Can, the mobile electricity consumption display device of auxiliary is powered, the endurance of the mobile electricity consumption display device of lifting.

The above, for the person of ordinary skill of the art, can be with technique according to the invention scheme and technology Other various corresponding changes and deformation are made in design, and all these changes and deformation should all belong to the claims in the present invention Protection domain.

Claims (10)

1. a kind of color membrane substrates, it is characterised in that including：Underlay substrate (1), the solar energy on the underlay substrate (1) Electric layer (2), on the underlay substrate (1) and by solar power generation layer (2) multiple array arrangements spaced apart Color blocking block (3), the organic planarization layer (5) on the color blocking block (3) and solar power generation layer (2), located at described organic flat Public electrode (6) on smooth layer (5) and the chock insulator matter (7) on the public electrode (6)；

The solar power generation layer (2) includes：Anode (21) on the underlay substrate (1), located at the anode (21) On semiconductor layer (22) and the negative electrode (23) on the semiconductor layer (22), be formed with the organic planarization layer (5) First via (24) and the second via (25), first via (24) expose a part for the anode (21), described Two vias (25) expose a part for the negative electrode (23).

2. color membrane substrates as claimed in claim 1, it is characterised in that the underlay substrate (1) includes：Viewing area (11) and The non-display area (12) of the viewing area (11) is surrounded, first via (24) and the second via (25) are respectively positioned on described non-aobvious Show in area (12).

3. color membrane substrates as claimed in claim 1, it is characterised in that the material of the anode (21) is transparent conductive oxide Thing, the material of the negative electrode (23) is metal.

4. color membrane substrates as claimed in claim 1, it is characterised in that the material of the public electrode (6) is ITO.

5. a kind of preparation method of color membrane substrates, it is characterised in that comprise the following steps：

Step S1, one underlay substrate of offer (1), form solar power generation layer (2), the sun on the underlay substrate (1) Energy electric layer (2) includes：Anode (21) on the underlay substrate (1), the semiconductor layer on the anode (21) (22) multiple array rows are formed with the negative electrode (23) and on the semiconductor layer (22), the solar power generation layer (2) The vacancy section of cloth；

The color of the multiple array arrangements of formation in step S2, the vacancy section of solar power generation layer (2) on underlay substrate (1) Stop block (3)；

Step S3, the color blocking block (3) and solar power generation layer (2) on sequentially form organic flatness layer (5) and public electrode (6)；

The first via (24) and the second via (25), the first via (24) exposure are formed with the organic planarization layer (5) Go out a part for the anode (21), second via (25) exposes a part for the negative electrode (23)；

Step S4, chock insulator matter (17) is formed on the public electrode (6).

6. the preparation method of color membrane substrates as claimed in claim 5, it is characterised in that the step S1 is specifically included：

Step S11, anode film (21 '), semiconductive thin film (22 ') and negative electrode are sequentially depositing on the underlay substrate (1) Film (23 '), forms solar power generation film (2 ')；

Step S12, the solar power generation film (2 ') is patterned by one of halftone mask or gray-level mask, shape is treated in removal Whole solar power generation films (2 ') in the region of quality stop block, remove the semiconductor film in the region of anode contact to be formed Film (22 ') and cathode thin film (23 '), obtain solar power generation layer (2).

7. the preparation method of color membrane substrates as claimed in claim 5, it is characterised in that the step S1 is specifically included：

Step S11 ', it is deposited and patterned anode film (21 ') on the underlay substrate (1), removes color blocking block to be formed Anode film (21 ') in region, obtains anode (21)；

Step S12 ', on the anode (21) and underlay substrate (1) it is sequentially depositing semiconductive thin film (22 ') and cathode thin film (23’)；

Step S13 ', the semiconductive thin film (22 ') and cathode thin film (23 ') patterned by one light shield simultaneously, removal is treated The semiconductive thin film (22 ') and cathode thin film (23 ') formed in the region of color blocking block and the region of anode contact to be formed, is obtained Solar power generation layer (2).

8. the preparation method of color membrane substrates as claimed in claims 6 or 7, it is characterised in that the step 3 is specifically included：

Step S31, the color blocking block (3) and solar power generation layer (2) on organic planarization layer film is deposited and patterned, obtain Organic planarization layer (5), the first via (24) and the second via (25), first via (24) run through the organic planarization layer (5) part for the anode (21) is exposed, second via (25), which runs through to be located at, treats having in the region of anode contact Machine flatness layer (5) exposes a part for the negative electrode (23)；

Step S32, the deposition public electrode film in the organic planarization layer (5), pattern the public electrode film, remove Public electrode film above first via (24) and the second via (25), obtains public electrode (6).

9. the preparation method of color membrane substrates as claimed in claim 5, it is characterised in that the underlay substrate (1) includes：Display Area (11) and the non-display area (12) for surrounding the viewing area (11), first via (24) and the second via (25) position In the non-display area (12).

10. the preparation method of color membrane substrates as claimed in claim 5, it is characterised in that the material of the anode (21) is Bright conductive oxide, the material of the negative electrode (23) is metal.