CN106950740A - Display panel, display and the method for manufacturing display panel - Google Patents

Abstract

The present invention relates to display technology field, a kind of display panel is disclosed, the display panel includes being formed with multiple pixels on CF substrates, the front of the CF substrates, and a pixel includes multiple sub-pixels, and the display panel includes：First transparency conducting layer, the second transparency conducting layer, electrochromic structure and solid electrolyte, the electrochromic structure is formed by electrochromic material, and with certain height, wherein, first transparency conducting layer is formed at the back side of CF substrates, the electrochromic structure and the solid electrolyte are formed between first transparency conducting layer and second transparency conducting layer, and the solid electrolyte is formed at around the electrochromic structure.The method that other directions of the present invention also provide the display of included above-mentioned display panel and manufacture display panel.Display quality can not be influenceed while having control angle of visibility processed using the solution of the present invention, and it is integrated and lightening beneficial to improving.

Description

Display panel, display and the method for manufacturing display panel

Technical field

The present invention relates to field of display, more particularly to display panel, display and the method for manufacturing display panel.

Background technology

With the evolution of semiconductor technology, the development of flat-panel monitor is also driven, in the flat-panel monitor of numerous types In, liquid crystal display is increasingly becoming the main flow in market because of low spatial occupation rate, low-power consumption, Low emissivity and low EMI. Liquid crystal display includes being used as TFT (the Thin Film Transistor) substrates of upper substrate and the CF as infrabasal plate (Colour Filter, colorized optical filtering) substrate, is injected with liquid crystal, TFT substrate between TFT substrate and CF substrates and is formed with control Red, green, blue filtering structure and other structures are formed with the film crystal tube loop of liquid crystal deflection processed, CF substrates.

With the development of Display Technique, people have new requirement for the multifunctionality of display, do not require nothing more than brightness, Clearly image quality etc., also requires secret protection, and the method used at present is plug-in peep-proof film to protect the privacy message of user, But the thickness of peep-proof film is about 2mm or so, using rear luminance-reduction 30% or so, this have impact on display quality in turn again, And the structure dismounting of this anti-external control peep-proof film is not very convenient, so as to influence manufacturing cost and manufacture efficiency.

The content of the invention

It is an object of the invention to provide the display panel that can control angle of visibility, the display for being configured with the display panel with And the method for manufacturing the display panel, the display panel can control angle of visibility while, display brightness, color etc. are not reduced Display quality.

To achieve these goals, one aspect of the present invention provides a kind of display panel, and the display panel includes CF substrates, institute State and multiple pixels are formed with the front of CF substrates, a pixel includes multiple sub-pixels, and the display panel includes： First transparency conducting layer, the second transparency conducting layer, electrochromic structure and solid electrolyte, the electrochromic structure is by electricity Off-color material is caused to be formed, and with certain height, wherein, first transparency conducting layer is formed at the back side of CF substrates, institute State electrochromic structure and the solid electrolyte be formed at first transparency conducting layer and second transparency conducting layer it Between, the solid electrolyte is formed at around the electrochromic structure.

Wherein, the electrochromic material can be at least one of following：Polythiophene class and its derivative, purple sieve essence Class, tetrathiafulvalene, metallo phthalocyanine, tungstic acid.

Wherein, the electrochromic structure can be formed in the position corresponding with the sub-pixel edge, and is formed as Lattice-shaped.

Wherein, the interval between the electrochromic structure can be equal to the width of a pixel.

Wherein, the interval between the electrochromic structure can be equal to the width of a sub-pixel.

Wherein, the height of the electrochromic structure can be equal to the interval between the electrochromic structure.

Wherein, first transparency conducting layer and second transparency conducting layer can be ITO conductive layer.

According to another aspect of the present invention, a kind of display is also provided, the display is configured with display surface described above Plate.

In accordance with a further aspect of the present invention, a kind of method for manufacturing display panel is also provided, this method includes for manufacture Multiple pixels are formed with the display panel of CF substrates, the front of the CF substrates, a pixel includes many height Pixel, this method includes：The first transparency conducting layer is formed at the back side of CF substrates；Electricity is formed on first transparency conducting layer Cause color changing structure；Solid electrolyte is formed around the electrochromic structure；And formed after the solid electrolyte, in institute State solid electrolyte surface and form the second transparency conducting layer.

Wherein, this method can also include：Marked in the formation of CF substrate backs, the position of the mark corresponds to the son The edge of pixel；By electrochromic structure formation on the corresponding position of the mark.

By above-mentioned technical proposal, in original display panel structure, electrochromic structure is formed, to the first transparent electricity When pole and second transparency electrode apply electric field, due to the characteristic of electrochromic material in itself, thus it is possible to vary electrochromic structure The optical characteristics such as transmitance, refractive index, reflectivity, and because electrochromic structure has certain height, so as to effective Ground controls the angle of visibility of display panel, and does not influence the display qualities such as the original display brightness of display panel, colorfulness.This Outside, the present invention, so as to improve the integration of display panel, is conducive to showing by the structure formation for controlling angle of visibility on CF substrates Show the lightening of panel, and improve the manufacture efficiency of display panel.

Brief description of the drawings

Fig. 1 is the basic structure schematic diagram of the CF substrates of display panel according to an embodiment of the invention；

The profile for the display panel according to an embodiment of the invention that Fig. 2 is；

Fig. 3 is the profile of display panel according to another embodiment of the present invention；

Fig. 4 is the profile of display panel according to another embodiment of the present invention；

Fig. 5 is the flow chart of the method for manufacture display panel according to yet another embodiment of the invention；And

Fig. 6 is the flow chart of the method for manufacture display panel according to yet another embodiment of the invention.

Description of reference numerals

10：CF glass is from substrate 11：Black matrix"

12：First transparency conducting layer 20：Electrochromic structure

21：Solid-state electrolyte layer 22：Second transparency conducting layer

30：Pixel 31：Red sub-pixel

32：Green sub-pixels 33：Blue subpixels

Embodiment

The embodiment of the present invention is described in detail below in conjunction with accompanying drawing.It should be appreciated that this place is retouched The embodiment stated is merely to illustrate and explain the present invention, and is not intended to limit the invention.

In invention description below, " front " and " back side " of CF substrates is to illustrate the structure of display panel And the beam language introduced, " front " is that for " back side ", but this is not intended to limit the scope of the present invention, this area skill Art personnel can also be replaced with it is other can understand illustrate display panel structure beam language.

Fig. 1 is the basic structure schematic diagram of the CF substrates of display panel according to an embodiment of the invention.As shown in figure 1, The front of CF substrates is formed with multiple pixels 30 and black matrix" 11, and each pixel 30 includes red sub-pixel 31, green Sub-pixel 32, blue subpixels 33, black matrix" 11 are light-shielding structure.Electrochromic structure is formed with the back side of CF substrates 20。

The profile for the display panel according to an embodiment of the invention that Fig. 2 is.As shown in Fig. 2 the display panel includes CF substrates, CF substrates include being formed with multiple pixels 30, one on CF glass substrates 10, the front of the CF glass substrates 10 The pixel includes multiple sub-pixels (31,32,33) as shown in Figure 1, and the display panel includes：First transparency conducting layer 12nd, the second transparency conducting layer 22, electrochromic structure 20 and solid electrolyte 21, the electrochromic structure 20 are become by electroluminescent Color material is formed, and with certain height, wherein, first transparency conducting layer 12 is formed at the back side of CF substrates, described Electrochromic structure 20 and the solid electrolyte 21 are formed at first transparency conducting layer 12 and second electrically conducting transparent Between layer 22, the solid electrolyte 21 is formed at around the electrochromic structure 20.

When applying electric field between the first transparency conducting layer 12 and the second transparency conducting layer 22, because of the first transparency conducting layer 12 and second have electrical potential difference between transparency conducting layer 22, and because of the characteristic of electrochromic structure 20, ion can be from solid electrolyte Layer is shifted, so that the light characteristic of electrochromic structure 20 changes, it is achieved thereby that optical characteristics is controlled, and further can be real The angle of visibility control of existing display panel.

According to the difference of liquid crystal deflection pattern, display panel can be divided into TN Model Products and IPS Model Products.Work as display When panel is IPS Model Products, in order to strengthen the effect destaticed, when making to be not powered between TFT substrate and CF substrates, liquid Crystal angle degree can be thus capable of sufficiently recovering, and form layer of transparent conductive layer at the back side of CF substrates sometimes.Therefore, when display panel is IPS During Model Products, transparency conducting layer and first transparency conducting layer 12 for going to destatic can unite two into one, i.e. described First transparency conducting layer 12 can be used for removing electrostatic, can be used for controlling angle of visibility.Therefore, these are all the present invention's In the range of.

Wherein, the electrochromic material can be at least one of following：Polythiophene class and its derivative, purple sieve essence Class, tetrathiafulvalene, metallo phthalocyanine, tungstic acid, but the present invention is not limited thereto, and other have similarity Organic or inorganic material can also be applied to this.

Wherein, the electrochromic structure is preferably as shown in figure 1, being formed in the position corresponding with the sub-pixel edge Put, and be formed as lattice-shaped, now, the colour developing of each pixel will not be influenceed because of the formation of electrochromic structure 20, in electricity When cause color changing structure is not formed at the edge of sub-pixel, it is possible that a sub-pixel is divided into two by electrochromic structure 20 Partial situation, this can cause in same pixel it is uneven between red sub-pixel, green sub-pixels, blue subpixels, from And color developing effect can be influenceed.

Fig. 3 is the profile of display panel according to another embodiment of the present invention.As shown in figure 3, the electrochromism knot Interval L between structure is preferably equal to the width of a pixel, so can not only reduce the quantity of electrochromic structure, and And can also ensure not block between the sub-pixel in a pixel, so as to while angle of visibility is controlled, not interfere with Color developing effect.

Fig. 4 is the profile of display panel according to another embodiment of the present invention.As shown in figure 4, the electrochromism knot Interval L between structure is preferably equal to the width of a sub-pixel.When the interval L between electrochromic structure is preferably equal to one During the width of individual sub-pixel, the thickness of display panel in the case of same angle of visibility, can be reduced, be conducive to display panel It is lightening.

As shown in Figure 3 and Figure 4, the height H of the electrochromic structure can be equal between the electrochromic structure L is spaced, now, angle of visibility can be controlled as 45 degree.

In above-described embodiment, first transparency conducting layer and second transparency conducting layer can be preferably to be led for ITO Electric layer, ITO conductive layer has good translucency, thus can improve brightness and the image quality of display panel.

In above-described embodiment, solid electrolyte for example can be transparent silica or phosphorus doped silica, and other are saturating Bright solid electrolyte can also be applied to this.

Another embodiment of the present invention provides the display of the above-mentioned display panel of application, and the display can controlled effectively While angle of visibility, display effect is not influenceed.

Fig. 5 is the flow chart of the method for manufacture display panel according to yet another embodiment of the invention.As shown in figure 5, the party Method, which is used to manufacture, includes the display panel of CF substrates, and multiple pixels, a picture are formed with the front of the CF substrates Vegetarian refreshments includes multiple sub-pixels, and this method comprises the following steps：

In step S510, the first transparency conducting layer is formed at the back side of CF substrates.

In step S520, electrochromic structure is formed on first transparency conducting layer.

In step S530, solid electrolyte is formed around the electrochromic structure.

In step S540, formed after the solid electrolyte, on the solid electrolyte surface, formation second is transparent leads Electric layer.

Fig. 6 is the flow chart of the method for manufacture display panel according to yet another embodiment of the invention.In figure 6, step S620, S640, S650 are successively with above-mentioned steps S510, S530, S540, and here is omitted.As shown in fig. 6, this method may be used also To comprise the following steps：

In step S610, marked in the formation of CF substrate backs, the position of the mark corresponds to the side of the sub-pixel Edge.The mark can simultaneously be formed when in CF substrate front sides formation sub-pixel, can be formed the front in CF substrates, also may be used To be formed overleaf.

In step S630, by electrochromic structure formation on the corresponding position of the mark.

The mark is preferably formed in the position corresponding with the sub-pixel edge, and is formed as lattice-shaped, so that The electrochromic structure formed afterwards is lattice-shaped.

The mark can form the edge in each pixel, can also form the edge in each sub-pixel, specifically Depending on the specific requirement of visible product.

Wherein, the electrochromic material can be at least one of following：Polythiophene class and its derivative, purple sieve essence Class, tetrathiafulvalene, metal phthalocyanine, tungstic acid class compound etc..

Wherein it is possible to by the height of the electrochromic structure be formed as be equal to the electrochromic structure between Every.

Wherein, first transparency conducting layer and second transparency conducting layer can for ITO conductive layer or IZO conductive layers, or other transparency conducting layers.

The method that the formation of electrochromic structure can for example use similar " roll ", makes recessed in advance on roller Groove, the width of groove is the width of electrochromic material, and the spacing of longitudinal fluting and the spacing of transverse concave groove are preferably right respectively The width and long distance of sub-pixel are answered, will be in contact with reeded roller with electrochromic material, then in substrate upper roller system, So as to disposably form the film layer for meeting pattern requirement and thickness requirement, electrochromism can also formed according to the difference of material The early stage of structure and later stage are handled electrochromic material accordingly.

Being formed for electrochromic structure can also will be made certain using the evaporation process for example similar to LED materials The mould (Mask) of pattern is blocked below substrate, and then electrochromic material is produced on substrate by the method for evaporation, The shape of electrochromic material is controlled by opening on Mask, and thickness is by time of evaporation, the process regulation such as temperature, To form electrochromic structure.

The preferred embodiment of the present invention is described in detail above in association with accompanying drawing, still, the present invention is not limited thereto.At this In the range of the technology design of invention, a variety of simple variants, including each particular technique can be carried out to technical scheme Feature is combined in any suitable manner, and in order to avoid unnecessary repetition, the present invention is to various possible combinations No longer separately illustrate.But these simple variants and combination should equally be considered as content disclosed in this invention, belong to the present invention Protection domain.

Claims (10)

1. a kind of display panel, the display panel includes being formed with multiple pixels, one on CF substrates, the front of the CF substrates The individual pixel includes multiple sub-pixels, it is characterised in that the display panel includes：

First transparency conducting layer, the second transparency conducting layer, electrochromic structure and solid electrolyte, the electrochromic structure Formed by electrochromic material, and with certain height,

Wherein, first transparency conducting layer is formed at the back side of CF substrates, the electrochromic structure and the solid state electrolysis Matter is formed between first transparency conducting layer and second transparency conducting layer, and the solid electrolyte is formed at the electricity Cause around color changing structure.

2. display panel according to claim 1, it is characterised in that the electrochromic material is at least one in following Person：Polythiophene class and its derivative, the smart class of purple sieve, tetrathiafulvalene, metallo phthalocyanine, tungstic acid.

3. display panel according to claim 1, it is characterised in that the electrochromic structure formation with the sub- picture The corresponding position in plain edge, and be formed as lattice-shaped.

4. display panel according to claim 3, it is characterised in that the interval between the electrochromic structure is equal to one The width of individual pixel.

5. display panel according to claim 3, it is characterised in that the interval between the electrochromic structure is equal to one The width of individual sub-pixel.

6. display panel according to claim 3, it is characterised in that the height of the electrochromic structure is equal to the electricity Cause the interval between color changing structure.

7. display panel according to claim 1, it is characterised in that first transparency conducting layer and described second transparent Conductive layer is ITO conductive layer.

8. a kind of display, it is characterised in that including the display panel any one of claim 1-7.

9. a kind of method for manufacturing display panel, this method, which is used to manufacture, includes the display panel of CF substrates, the CF substrates Multiple pixels are formed with front, a pixel includes multiple sub-pixels, it is characterised in that this method includes：

The first transparency conducting layer is formed at the back side of CF substrates；

Electrochromic structure is formed on first transparency conducting layer；

Solid electrolyte is formed around the electrochromic structure；And

Formed after the solid electrolyte, the second transparency conducting layer is formed on the solid electrolyte surface.

10. the method for manufacture display panel according to claim 9, it is characterised in that this method also includes：

Marked in the formation of CF substrate backs, the position of the mark corresponds to the edge of the sub-pixel；

By electrochromic structure formation on the corresponding position of the mark.