CN209624902U - A kind of bistable electro wetting display base plate and display device - Google Patents

Abstract

The utility model discloses a kind of bistable electro wetting display base plate and display devices, it includes: substrate that the bistable electro, which soaks display base plate, the pixel wall of pixel compartments array is surrounded on substrate, conductive layer and divider wall on substrate in each pixel compartments, dielectric layer on pixel wall, divider wall and conductive layer, the first hydrophobic layer on the dielectric layer of respective pixel wall and conductive layer position, hydrophilic layer or hydrophilic layer and the second hydrophobic layer on the dielectric layer of corresponding isolation wall displacement；Conductive layer in each pixel compartments includes first electrode and second electrode；Divider wall is set between the first electrode and second electrode, and each pixel compartments are divided into first area and the second area of corresponding first electrode and second electrode.In the above manner, the utility model bistable electro wetting display substrate structure is simple, it can be applied to electric moistening display part, driving voltage can be reduced, highly reliable, bistable display effect is good, improves electrowetting display performance.

Description

A kind of bistable electro wetting display base plate and display device

Technical field

The utility model relates to electrowetting field of display technology, and in particular to a kind of bistable electro wetting display base plate and aobvious Show device.

Background technique

Electrowetting electronical display is to utilize polar liquid surface tension in extra electric field manipulation pixel, and then promotion ink paving Exhibition and contraction, realize the Novel reflection-type display technology of optical switch and gray-scale Control.Traditional electrowetting show be it is monostable, i.e., By applying electric field to polar liquid water, ink can be driven to receive one jiao of pixel compartments, to maintain ink to shrink, it is necessary to keep electricity It presses off and opens；After removing voltage, ink can spread out state back to initial.Bistable state is that electronic display technology realizes new exploration side To, it is therefore an objective to after shrinking ink power-up, goes electricity that can also remain retracted and do not spread out, holding and refreshing can thus be greatly reduced Power consumption reduces power consumption.But existing known bistable electro wetting display device stability is inadequate, maintains two-stable position effect not It is ideal.

Utility model content

In order to solve the above-mentioned technical problem, the utility model provides a kind of bistable electro wetting display base plate and display Part, bistable electro wetting display base plate can lower electrowetting and show driving voltage, and stability is high.

The technical scheme adopted by the utility model is a kind of bistable electro soaks display base plate, comprising: substrate is set to The pixel wall that pixel compartments array is surrounded on the substrate, conductive layer and isolation on the substrate and in each pixel compartments Wall, the dielectric layer on the pixel wall, divider wall and conductive layer, set on Jie of the correspondence pixel wall and conductive layer position The first hydrophobic layer in electric layer, and hydrophilic layer or hydrophilic layer and second on the dielectric layer of the correspondence isolation wall displacement Hydrophobic layer；Conductive layer in each pixel compartments includes first electrode and second electrode；The divider wall be set to the first electrode and Between second electrode, each pixel compartments are divided into first area and the second area of corresponding first electrode and second electrode.Wherein, Divider wall is generally continuous structure, and the height of pixel wall is generally higher than the height of divider wall, i.e. pixel wall is higher than divider wall.

According to one specific embodiment of the utility model, the area of the first electrode is not more than the three of each pixel compartments area / mono-.

According to one specific embodiment of the utility model, the first electrode is set to the corner regions of pixel compartments.

According to one specific embodiment of the utility model, filled layer is equipped with below the second electrode, the filled layer is concordant In or lower than the pixel wall.SU-8, HN, silicon oxide or silicon nitride material can be used in the material of the filled layer, specifically can be with The material of the divider wall is identical or different.

According to one specific embodiment of the utility model, the conductive layer is set to the side wall and the substrate of the pixel wall On.It designs with this configuration, makes substrate and pixel wall side wall top electrode that can form electric field resultant force when being powered, it is aobvious applied to electrowetting Show that device is orientable by electric field resultant force, accurately and fast push nonpolar liquid (such as ink) movement, overcomes nonpolar liquid The problems such as liquid height is big when contraction, and hardly possible is ruptured, do not moved reduces the response time, improves display performance.

According to one specific embodiment of the utility model, the conductive coating structure in each pixel compartments is identical.

According to one specific embodiment of the utility model, the shape of the divider wall is circle, arc, curved shape, linear Or fold-line-shaped.

According to one specific embodiment of the utility model, the height of the divider wall is 1~20 μm.

According to one specific embodiment of the utility model, the width of the divider wall is 2~10 μm.

Transparent conductive material and/or high-reflectivity metal conductive material can be used in the material of conductive layer；Specifically, to reality Transparent conductive material (such as ITO, transparent metal nano wire, transparent metal grid can be used in existing transmission-type bistable electro wetting display Deng) prepare conductive layer；To realize reflection type bistable state electrowetting show can be used high reflecting metal conductive material (such as Al, Au, The metals such as Ag) prepare conductive layer.The silicon wafer with oxide layer, glass, PET, PEN or PI material can be used in the material of substrate；Pixel The material of wall and divider wall can be used SU-8, HN, silicon oxide or silicon nitride material, pixel wall and be isolated strong material can it is identical or It is different.In addition, the shape of pixel compartments may be designed as rectangle, square, circle, diamond shape or ellipse etc..

In addition, the utility model additionally provides a kind of bistable electro wetting display device, including any of the above-described kind of bistable state Electrowetting display base plate.

The advantageous effects of the utility model are: the utility model provides a kind of bistable electro wetting display base plate and aobvious Show device.It is simple that the bistable electro soaks display substrate structure, can be applied to electric moistening display part, by divider wall and The design of hydrophilic layer, can make electric moistening display part when being powered, nonpolarity therein on the dielectric layer of corresponding isolation wall displacement Liquid (such as ink) can cross divider wall movement, and when voltage is withdrawn, divider wall and thereon corresponding hydrophilic layer can block non- Polar liquid movement maintains bistable behavior by itself interfacial tension of nonpolar liquid, so as to reduce driving voltage, reliably Property it is strong, bistable display effect is good, improve electrowetting display performance.

Detailed description of the invention

Illustrate the technical scheme in the embodiment of the utility model in order to clearer, it below will be to required in embodiment description Attached drawing to be used briefly describes.

Fig. 1 is the partial structural diagram of the utility model bistable electro wetting one embodiment of display base plate；

Fig. 2 is the sectional view of II-II line along Fig. 1；

Fig. 3 is the partial structural diagram of the utility model bistable electro wetting one embodiment of display device；

Fig. 4 is the operation principle schematic diagram of the wetting display device of bistable electro shown in Fig. 3.

Specific embodiment

It is carried out with reference to embodiments with technical effect of the attached drawing to the design of the utility model, specific structure and generation clear Chu is fully described by, to fully understand the purpose of this utility model, scheme and effect.It is understood that described herein Specific embodiment is only used for explaining the utility model, rather than the restriction to the utility model.Based on the implementation in the utility model Example, every other embodiment obtained by those of ordinary skill in the art without making creative efforts belong to The range of the utility model protection.

The descriptions such as upper and lower, left and right used in the utility model are only each composition portion of the utility model in opposite figure Divide for mutual alignment relation, and term " includes " and " having " and their any deformations, it is intended that covering is non-exclusive Include.

Referenced herein " embodiment " is it is meant that a particular feature, structure, or characteristic described can wrap in conjunction with the embodiments It is contained at least one embodiment of the utility model., which there is the phrase, in each position in the description to be each meant Identical embodiment, nor the independent or alternative embodiment with other embodiments mutual exclusion.Those skilled in the art are explicit Ground and implicitly understand, the features in the embodiments and the embodiments of the present application can be mutual group in the absence of conflict It closes.

Fig. 1 and Fig. 2 are please referred to, Fig. 1 is the partial structurtes of the utility model bistable electro wetting one embodiment of display base plate Schematic diagram, Fig. 2 are the sectional views of II-II line along Fig. 1.As depicted in figs. 1 and 2, the present embodiment bistable electro wetting display base Plate includes: substrate 11, and the pixel wall 14 of pixel compartments array is surrounded on substrate 11, is set on substrate 11 and is located at each pixel compartments Interior conductive layer 12 and divider wall 13, the dielectric layer 15 on pixel wall 14, divider wall 13 and conductive layer 12 are set to corresponding picture Hydrophobic layer 16 on the dielectric layer 15 of 12 position of plain wall 14 and conductive layer, and the dielectric layer set on corresponding 13 position of divider wall Hydrophilic layer 17 on 15.Specifically, it is designed with conductive layer 12 in each pixel compartments that pixel wall 14 encloses, conductive layer 12 includes First electrode 121 and second electrode 122, divider wall 13 is set between first electrode 121 and second electrode 122, by each pixel Lattice are divided into first area 123 and the second area 124 of corresponding first electrode 121 and second electrode 122.

As shown in Figure 1, conductive layer 12 is set to the side wall on substrate 11 with pixel wall 14 in pixel compartments in the present embodiment On.By the way that conductive layer 12 to be set on the side wall of 11 upper surface of substrate and pixel wall 14, finished substrate is aobvious applied to electrowetting Show device in use, the electrode formed on 14 side wall of substrate 11 and pixel wall of substrate can produce electric field resultant force, orientation, it is accurate and The movement for rapidly pushing nonpolar liquid in device, reduces the corresponding time, improves device display performance.Certainly, in other realities It applies in example, conductive layer 12 can only be set to the upper surface of substrate 11.

In the present embodiment, the shape of divider wall 13 is arc (as shown in Figure 2), and the height of divider wall 13 is 10 μm of left sides The right side, the height of pixel wall 14 are greater than the height of divider wall 13.Also, in the present embodiment, first electrode 121 is set to the angle of pixel compartments It settles in an area domain, and the area of first electrode 121 is not more than the one third of each pixel compartments area；Pixel compartments are square.Pass through The size of first electrode 121 and second electrode 122, spatial distribution design and divider wall 13 highly design in the above conductive layer 12 It is reasonably combined, display performance can be more effectively improved, driving voltage is reduced, reduces the corresponding time, enhances reliability, improves bistable State display effect.Certainly, in other embodiments, can according to actual needs the height to divider wall 13 and pixel compartments, shape with And the geomery and spatial distribution of each electrode of conductive layer 12 are adjusted.As pixel compartments are also designed to rectangle, circle, water chestnut Shape or ellipse etc., divider wall 13 may be designed as circle, curved shape, linear or fold-line-shaped etc., and divider wall 13 is generally continuous Structure, width are generally 2~10 μm, are highly 1~20 μm.In other embodiments, it also can be used identical as divider wall 13 Material filled layer is set below second electrode 122, the height of filled layer is generally less than or equal to the height of pixel wall 14.It fills out SU-8, HN, silicon oxide or silicon nitride material can be used in the material for filling layer, specifically can be identical or different with the material of divider wall.It is logical The setting of filled layer is crossed for keeping the nonpolar liquid of the corresponding second area 122 of second electrode 122 to keep bistable；Specifically Filled layer is arranged in ground between second electrode 122 and substrate 11, will form height between second electrode 122 and first electrode 121 Difference, at this point, a groove is equivalent at the corresponding first area 123 of first electrode 121, and second electrode 122 corresponding second Region 122 is similar to a step；When nonpolar liquid (such as ink) is located at the corresponding first area in 121 top of first electrode When 123, nonpolar liquid relies on this difference in height and divider wall, and removing voltage also can remain stable；When nonpolar liquid moves When to the corresponding second area 124 in the top of second electrode 122, nonpolar liquid is laid in 122 top of second electrode corresponding the Two regions 124 can maintain to stablize after removing voltage by the interfacial tension of nonpolar liquid itself.

It, can be in addition, can be designed according to actual needs to bistable electro wetting display base plate on the basis of above It is designed as reflection-type, transmission-type or Transflective, can specifically use ITO, transparent metal nano wire, transparent metal according to demand The high reflecting metals conductive material such as the transparent conductive materials such as grid or Al, Au, Ag prepares conductive layer 12.The optional rigidity of substrate 11 or The silicon wafer with oxide layer, glass, PET, PEN or PI material specifically can be used in flexibility；The material of pixel wall 14 and divider wall 13 can Using SU-8, HN, silicon oxide or silicon nitride material, the material of pixel wall 14 and isolation strong 13 be may be the same or different.In addition, switch Display mode can be each pixel compartments and individually switch display, be also possible to combine forming region segment encode simultaneously by multiple pixel compartments Switch display；Driving display mode can be active array driving or passive array driving display；It is aobvious that pixel compartments can be single layer Show or stacked system generates multiple-layer polychromatic and shows.

The above bistable electro wetting display base plate can be prepared by following preparation method, which specifically includes Following steps:

S1, it takes or prepares substrate 11, pixel wall 14 and divider wall 13 are then prepared on substrate 11.

It specifically, can be then logical using mask plate by the material of spraying pixel wall 14 and divider wall 13 on substrate 11 Overexposure developing technique prepares pixel wall 14 and divider wall 13；Or it can be by inkjet printing technology using pixel wall 14 and isolation The material of wall 13 carries out precise Printing, and then high-temperature baking solidifies, to prepare pixel wall 14 and divider wall 13.For the ease of processing Preparation, preferred pixel wall 14 and divider wall 13 use identical material.

Conductive layer 12 is prepared in S2, each pixel compartments that pixel wall 14 surrounds on substrate 11, conductive layer 12 includes the first electricity Pole 121 and second electrode 122.

Specifically, PVD (magnetron sputtering) can be used or CVD prepares conductive layer 12.When sputtering operation, rotating and excursion can be passed through Technique makes the equal uniform coated in 14 side of pixel wall in substrate 11 and pixel compartments, then one layer of light of spin coating on the plated film of formation Photoresist is prepared corresponding electrode pattern photoetching offset plate figure by optical exposure and aobvious fixing technologies, then is fallen by wet etching The Conductive layer portions of exposure after exposure development, etching remove photoresist after the completion, obtain target electrode pattern.The thickness of conductive layer 12 Degree can be controlled by the time of magnetron sputtering, and thickness is generally 100~200nm.Final substrate can be applied to preparation electricity Display device is soaked, and is formed by the conductive layer in display device and can be used for controlling switching of the ink between two states.

In addition, the mode that inkjet printing and electroless-plating (glasses reaction) combine, which can also be used, prepares conducting layer electrode.Example Such as, polystyrene (PS) is dissolved in dimethylformamide (DMF), and is placed on 60 DEG C of warm tables and dissolves by heating 12h, made It is 25wt% ink at mass fraction, patterned polymer mask plate is prepared by inkjet printing.Then polyphenyl second is being had Metal electrode film is prepared using electroless-plating (silver mirror reaction) on the substrate of alkene (PS) pattern: by AgNO₃Be dissolved in from It in sub- water, and is stirred half an hour under 300rpm revolving speed, and by 0.25M, the KOH aqueous solution of 20 μ L rapidly joins AgNO₃Solution In；Then ammonia spirit is instilled dropwise in above-mentioned solution until solution becomes clear；Glucose then is added and formaldehyde is molten Liquid mixing, as reducing agent, stirs 20min under 300rpm revolving speed；Reducing agent is finally poured into (Ag (NH₃)₂)⁺Presoma It stirs in solution, the substrate with PS pattern is put into mixed solution rapidly, after 5 min, sample is put into deionized water instead After backwashing is washed and is dried up with nitrogen gun；Finally above-mentioned sample is immersed in DMF solvent and washes off polymer mask plate, takes out and uses after 3min Nitrogen gun drying, obtains pattern metal silver electrode.

S3, dielectric layer 15 is prepared on conductive layer 12, pixel wall 14 and divider wall 13.

Specifically, dielectric layer can be made by modes such as spin coating proceeding at a slow speed, dipping process, silk-screen printing or slot coateds 15 material is uniformly distributed on conductive layer 12, pixel wall 14 and divider wall 13, to prepare dielectric layer 15.

S4, hydrophobic layer 16 is prepared on the dielectric layer of corresponding conductive layer 12 and 14 position of pixel wall；In corresponding divider wall 13 Hydrophilic layer 17 is prepared on the dielectric layer 15 of position.

Specifically, can first pass through at a slow speed the modes such as spin coating proceeding, dipping process, silk-screen printing or slot coated in dielectric layer Hydrophobic layer 16 is prepared on 15, then under mask plate protection, the hydrophobic layer 16 of corresponding isolation wall displacement is carried out it is hydrophilically modified, This is hydrophilically modified to be realized by the method for graphical dry etching RIE or the specific water wetted material of magnetron sputtering.Some In the case of, the hydrophobic layer on dielectric layer can also be subjected to locally hydrophilic modification, so that on the dielectric layer of corresponding isolation wall displacement Contain hydrophobic layer and hydrophilic layer simultaneously；Certainly, it can also be made on the dielectric layer 15 of corresponding conductive layer 12 and 14 position of pixel wall respectively Standby hydrophobic layer 16 prepares hydrophilic layer 17 on the dielectric layer 15 of corresponding 13 position of divider wall, or in corresponding 13 position of divider wall Horizontal Tile prepares hydrophilic layer 17 and hydrophobic layer 16 on dielectric layer 15.

The above bistable electro wetting display substrate structure is simple, can be applied to electric moistening display part, passes through divider wall 13 and corresponding 13 position of divider wall dielectric layer 15 on hydrophilic layer 17 design, electric moistening display part can be made when being powered, Nonpolar liquid (such as ink) therein can cross the movement of divider wall 13, and when voltage is withdrawn, divider wall 13 and correspond to thereon Hydrophilic layer 17 nonpolar liquid can be blocked to move, by nonpolar liquid itself interfacial tension maintain bistable behavior, thus Driving voltage can be reduced, highly reliable, bistable display effect is good, improves electrowetting display performance.

Show referring specifically to the partial structurtes that Fig. 3, Fig. 3 are the utility model bistable electro wetting one embodiments of display device It is intended to.As shown in figure 3, the present embodiment bistable electro wetting display device includes upper substrate 20, lower substrate.Upper substrate 20 is equipped with ITO (tin indium oxide) material can be used in public electrode 28, the material of public electrode 28.Lower substrate and bistable electro shown in FIG. 1 It is essentially identical to soak display substrate structure, including substrate 21 and surrounds pixel compartments at conductive layer, divider wall 23 on substrate 21 The pixel wall 24 of array, the dielectric layer 25 on pixel wall 24, divider wall 23 and conductive layer set on respective pixel wall 24 and are led Hydrophobic layer 26 on the dielectric layer 25 of electric layer position, and the hydrophilic layer on the dielectric layer 25 of corresponding 23 position of divider wall 27；Conductive layer in each pixel compartments includes first electrode 221 and second electrode 222, and divider wall 23 is set to first electrode 221 and the Between two electrodes 222, each pixel compartments are divided into the first area and the secondth area of corresponding first electrode 221 and second electrode 222 Domain, other specific structures repeat no more.Upper substrate 20 and lower substrate opposite direction, which are formed in sealing cavity, is filled with encapsulation liquid 29, The encapsulation liquid 29 is polar electrolyte solution 291 and non-polar solution 292, and two kinds of solution are immiscible.In the present embodiment, Polarity electrolyte solution 291 is water, and non-polar solution 292 is ink.

Referring to Fig. 4, Fig. 4 is the operation principle schematic diagram of the present embodiment bistable electro wetting display device.Such as Fig. 4 institute Show, the present embodiment bistable electro soaks display device, and the specific working principle is as follows: firstly, under unpowered state, in Fig. 4 (a) shown in, due to wetting effect, polarity electrolytic solution 291 (i.e. water) and non-polar solution 292 (i.e. ink) are filled and are tiled In pixel compartments, in each pixel compartments, ink is isolated wall 23 and is separated into two parts；When second electrode 222 and public electrode 28 When connecting direct current, in Fig. 4 shown in (b), since the charge of polar electrolyte solution water is toward second electrode 222 corresponding the Two regional movements change the contact angle of water hydrophobic layer 26 in second electrode 222, become hydrophily, and nonpolar ink is coming Make from the electric field resultant force driving that second electrode 222 generates on 24 inner sidewall of 11 upper surface of second area substrate and pixel wall is distributed in Under, divider wall 23 quickly, is directionally crossed, is gathered in the corresponding first area of pixel compartments corner first electrode 221；When removing The DC electric field of second electrode 222 and public electrode 28, ink is by divider wall 23 and its top hydrophilic layer 27 and ink itself Interfacial tension, steadily shrink in the corresponding first area of pixel compartments corner first electrode 221, pixel compartments show second electricity The corresponding large area second area in pole 222 is transparent or substrate color, i.e. pixel compartments are opened, this state is bistable electro wetting First stable state of display device；When first electrode 221 and public electrode 28 connect direct current, in Fig. 4 shown in (c), Nonpolar ink is produced from the first electrode 221 being distributed on 24 inner sidewall of 21 upper surface of first area substrate and pixel wall Under raw electric field resultant force driving effect, divider wall 23 quickly, is directionally crossed, second electrode 222 is corresponding big in pixel compartments Area second area is spread out；At this point, remove the DC electric field of first electrode 221 Yu public electrode 28, nonpolar ink rely on every Interfacial tension from wall 23 and its hydrophilic layer of top 27 and ink itself, steadily in corresponding secondth area of second electrode 222 Domain is spread out, and pixel compartments show that large area second area is the color of ink, i.e. pixel compartments are closed, this state is bistable electro wetting Second stable state of display device.By upper, ink is not necessarily to electric field, crosses in ink in when opening or closing bistable state Divider wall 23, pixel compartments show power consumption when state need to switch, and so as to which power consumption is greatly reduced, and bistable display effect is good.

Although specifically showing and describing the utility model in conjunction with preferred embodiment, those skilled in the art is answered This is understood, in the spirit and scope for not departing from the utility model defined by described claims, in form and details On the utility model can be made a variety of changes, be the protection scope of the utility model.

Claims (10)

1. a kind of bistable electro soaks display base plate characterized by comprising substrate surrounds pixel compartments on the substrate The pixel wall of array, on the substrate and be located at each pixel compartments in conductive layer and divider wall, be set to the pixel wall, every From the dielectric layer on wall and conductive layer, the first hydrophobic layer on the dielectric layer of the correspondence pixel wall and conductive layer position, And hydrophilic layer or hydrophilic layer and the second hydrophobic layer on the dielectric layer of the correspondence isolation wall displacement；In each pixel compartments Conductive layer includes first electrode and second electrode；The divider wall is set between the first electrode and second electrode, will be each Pixel compartments are divided into first area and the second area of corresponding first electrode and second electrode.

2. bistable electro according to claim 1 soaks display base plate, which is characterized in that the area of the first electrode is not Greater than the one third of each pixel compartments area.

3. bistable electro according to claim 2 soaks display base plate, which is characterized in that the first electrode is set to pixel The corner regions of lattice.

4. bistable electro according to claim 2 soaks display base plate, which is characterized in that the second electrode and the lining Filled layer is equipped between bottom, the filled layer flushes in or lower than the pixel wall.

5. bistable electro according to claim 1 soaks display base plate, which is characterized in that the conductive layer is set to the picture On the side wall of plain wall and the substrate.

6. bistable electro according to claim 5 soaks display base plate, which is characterized in that the conductive layer knot in each pixel compartments Structure is identical.

7. bistable electro according to claim 1 to 6 soaks display base plate, which is characterized in that the divider wall Shape be circle, arc, curved shape, linear or fold-line-shaped.

8. bistable electro according to claim 1 to 6 soaks display base plate, which is characterized in that the divider wall Height be 1~20 μm.

9. bistable electro according to claim 8 soaks display base plate, which is characterized in that the width of the divider wall is 2 ~10 μm.

10. a kind of bistable electro soaks display device, which is characterized in that including bistable of any of claims 1-9 State electrowetting display base plate.