CN204302622U - A kind of display base plate and display panels - Google Patents
A kind of display base plate and display panels Download PDFInfo
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- CN204302622U CN204302622U CN201420823442.1U CN201420823442U CN204302622U CN 204302622 U CN204302622 U CN 204302622U CN 201420823442 U CN201420823442 U CN 201420823442U CN 204302622 U CN204302622 U CN 204302622U
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Abstract
The utility model embodiment describes a kind of display base plate and comprises the display panels of this display base plate.This display base plate comprises: transparency carrier; Be positioned at described transparency carrier one side surface and cover the light wave absorbed layer of described transparency carrier; Be positioned at the Presentation Function layer of described transparency carrier one side surface.The display base plate that the utility model provides and display panels, comprise and be positioned at transparency carrier one side surface and the light wave absorbed layer covering this transparency carrier, can come to carrying out absorption from the light of board reflection in exposure process, reduce reverberation to the interference of exposure imaging process, improve exposure imaging precision, and then improve Presentation Function tunic layer precision, improve display base plate quality, improve yield, reduce production cost, improve the display effect of the display floater comprising this display base plate.
Description
Technical field
The utility model relates to display field, particularly relates to a kind of display base plate and comprises the display panels of this display base plate.
Background technology
The advantages such as flat-panel monitor is frivolous with it, power saving are welcomed by the people, wherein common with liquid crystal indicator.The liquid crystal layer that display panels generally comprises array base palte, color membrane substrates and is filled between array base palte and color membrane substrates.At least one of array base palte and color membrane substrates is formed with pixel electrode and public electrode, electric field is formed powering up between pixel electrode and public electrode, by controlling the orientation angles of the change modulates liquid crystal molecule of electric-field intensity, thus the light transmission rate of backlight is changed.
As shown in Figure 1, be the sectional structure schematic diagram of a kind of display base plate in prior art, the display base plate in the prior art can be array base palte, also can be color membrane substrates, can also be other display base plates of other display unit.This display base plate comprises transparency carrier 11 and Presentation Function layer 12.Transparency carrier 11 is generally glass substrate or quartz base plate, and Presentation Function layer 12 can be array of display or color rete.Adopt the display base plate of the prior art, after synthesizing display floater with suitable subtend substrate in batch, the display of image can be carried out according to drive singal.
When display base plate is array base palte, often comprise in Presentation Function layer 12 in gate metal layer, source-drain electrode metal level, transparent oxide conductive layer, semiconductor layer, planarization layer, insulating barrier at least one or more layers, and when display base plate is color membrane substrates, often comprise in Presentation Function layer 12 in colored color blocking layer, black matrix layer, planarization layer, transparent oxide conductive layer at least one or more layers.In the preparation process of these retes, due to some rete as source-drain electrode metal level, transparent oxide conductive layer are often patterned and form various figure, these figures have very high requirement for size live width.The coating of film material is generally included, the coating of photoresist, exposure imaging and patterning process in the preparation process of these retes.In exposure process, due to reasons such as exposure bench are reflective, interference can be produced to the exposure of photoresist, the pattern of preliminary dimension live width can not be obtained, cause final display floater rete size uneven, finally cause display bad.
Summary of the invention
In view of this, the utility model provides a kind of display base plate, comprising: transparency carrier; Be positioned at described transparency carrier one side surface and cover the light wave absorbed layer of described transparency carrier; Be positioned at the Presentation Function layer of described transparency carrier one side surface.
The utility model additionally provides a kind of display panels, comprises above-mentioned display base plate.
Compared with prior art, the utility model at least has one of following outstanding advantage:
The display base plate that the utility model provides, comprise and be positioned at transparency carrier one side surface and the light wave absorbed layer covering this transparency carrier, can come to carrying out absorption from the light of board reflection in exposure process, reduce reverberation to the interference of exposure imaging process, improve exposure imaging precision, and then improve Presentation Function tunic layer precision, improve display base plate quality, improve yield, reduce production cost, improve the display effect of the display floater comprising this display base plate.
Accompanying drawing explanation
Fig. 1 is the sectional structure schematic diagram of a kind of display base plate in prior art;
Fig. 2 is the sectional structure schematic diagram of a kind of display base plate that the utility model embodiment one provides;
Fig. 3 is exposure machine light source light spectrum intensity schematic diagram;
Fig. 4 is light wave absorbed layer different-thickness and transmitance relation simulation curve figure in Fig. 2;
Fig. 5 is the sectional structure schematic diagram of a kind of display base plate that the utility model embodiment two provides;
The transmitance simulation curve figure of the display base plate that Fig. 6 provides for the utility model embodiment two;
Fig. 7 is same thickness individual layer and three layers of light wave absorbed layer and transmitance relation simulation curve figure;
Fig. 8 is the sectional structure schematic diagram of a kind of display base plate that the utility model embodiment three provides;
Fig. 9 is the sectional structure schematic diagram of a kind of display base plate that the utility model embodiment four provides;
Figure 10 is the structural representation of a kind of display panels that the utility model embodiment five provides.
Detailed description of the invention
For enabling above-mentioned purpose of the present utility model, feature and advantage more become apparent, and are described further the utility model below in conjunction with drawings and Examples.
It should be noted that, set forth detail in the following description so that fully understand the utility model.But the utility model can be different from alternate manner described here to implement with multiple, those skilled in the art can when doing similar popularization without prejudice to when the utility model intension.Therefore the utility model is not by the restriction of following public detailed description of the invention.
Embodiment one
Please refer to Fig. 2, Fig. 2 is the sectional structure schematic diagram of a kind of display base plate that the utility model embodiment one provides.The display base plate that the present embodiment provides comprises: transparency carrier 11; Be positioned at transparency carrier 11 1 side surface and cover the light wave absorbed layer 13 of transparency carrier 11; Be positioned at the Presentation Function layer 12 of transparency carrier 11 1 side surface.
Particularly, in the present embodiment, light wave absorbed layer 13 is positioned at a side surface of transparency carrier 11 and directly contacts with transparency carrier 11, and Presentation Function layer 12 is positioned at the opposite side surface of transparency carrier 11.Namely Presentation Function layer 12 and light wave absorbed layer 13 are positioned at the not same surface of transparency carrier 11.And prepare in exposure process at display base plate, Presentation Function layer 12 is arranged closer to the light source of exposure machine, and light wave absorbed layer 13 is arranged closer to the board of exposure machine.In exposure process, light source is used for exposing the rete in Presentation Function layer 12, in the process, has the board of part light through display base plate conduction exposure machine, and is reflected back toward display base plate at board.Now light wave absorbed layer 13 can carry out absorbing and filtering to the light of these projections and reflection, and diminished reflex light, to the interference of rete exposure in Presentation Function layer 12, improves the exposure accuracy of rete in Presentation Function layer 12.
Please refer to Fig. 3, Fig. 3 is exposure machine light source light spectrum intensity schematic diagram.The coating of film material is generally included, the coating of photoresist, exposure imaging and patterning process in the preparation process of Presentation Function layer 12 rete.After exposure machine light source sends, can filter light, the light source of photoresist sensitivity interval is retained, and the light of its all band is then removed.Please refer to Fig. 3, after filtering, optical wavelength is more than or equal to 350 nanometers and the wavelength being less than or equal to 450 nanometers is preserved for exposure process.In this interval, light mainly concentrates on three wave bands, and namely wavelength is the i-line of 365 nanometers, and wavelength is the h-line of 405 nanometers, and wavelength is the g-line of 436 nanometers.
The light wave absorbed layer 13 comprised in the display base plate that the present embodiment provides is by niobium oxide (Nb
2o
5) form, can absorb ultraviolet light and shortwave light, namely 350 nanometers are more than or equal to for wavelength and the light wave being less than or equal to 450 nanometers has absorption.The present embodiment using niobium oxide as explanation, but in specific implementation process, can have other inorganic material to form, and concrete, Ke Yishi, comprises niobium oxide (Nb
2o
5), cerium oxide (CeO
2), titanium oxide (TiO
2), zirconia (ZrO
2) and scandium oxide (Sc
2o
3) in one or more inorganic material, 350 nanometers can be more than or equal to wavelength and the light wave being less than or equal to 450 nanometers carries out absorbing and filtering.
In order to investigate the relation of light wave absorbed layer 13 and light penetration, the present utility model people has done a series of light wave absorbed layer 13 thickness and transmitance related experiment, please refer to Fig. 4, is light wave absorbed layer different-thickness in Fig. 2 and transmitance relation simulation curve figure.Not comprise the display base plate of light wave absorbed layer 13 as transmitance normative reference, transmitance when namely the thickness of light wave absorbed layer 13 is 0 nanometer is 100%.Show the light penetration result table at different wave length of different-thickness light wave absorbed layer in Table 1.
Table one
As can be seen from Table I, along with the increase of light wave absorbed layer 13 thickness, the trend first reducing and increase afterwards is presented to the transmitance of i-line region light wave, and also similar for the transmitance rule of the light wave in h-line and g-line region, be all first reduce rear increase.But due in making in exposure, the i-line light wave of the responsive light wave of photoresist to be wavelength be 365nm, therefore, when selecting thickness to be the light wave absorbed layer 13 of 20 ~ 50 nanometers, can be that the light wave of 365nm filters half nearly by wavelength, namely effectively assimilation ratio be more than or equal to 40%.Therefore, in the present embodiment, preferably employing thickness is the light wave absorbed layer of 20 ~ 50 nanometers.The light reflected from board can be absorbed, thus reduce the interference of reverberation in exposure process.
In the present embodiment, display base plate can be array base palte, also can be color membrane substrates.When this display base plate is array base palte, Presentation Function layer 12 is array of display layer, and this array of display layer comprises at least one deck in gate metal layer, source-drain electrode metal level, transparent oxide conductive layer, semiconductor layer, planarization layer, insulating barrier.Wherein, gate metal layer, source-drain electrode metal level, transparent oxide conductive layer, semiconductor layer are in preparation process, in photoresist exposure process, light wave absorbed layer 13 can absorb the light through substrate, and double absorption is carried out to the reverberation from board, suppose that the transmitance of light wave absorbed layer is 50%, so can pass display base plate, and reflect secondary and can be reduced to 25% through the light ratio of light wave absorbed layer 13, greatly reduce its impact on exposure process.When display base plate is color membrane substrates, Presentation Function layer 12 is color rete, and this color rete comprises at least one deck in colored color blocking layer, black matrix layer, planarization layer, transparent oxide conductive layer.Same, light wave absorbed layer 13 in the exposure process of these retes, can reduce the interference of reverberation to exposure.
The display base plate that the present embodiment provides, comprise and be positioned at transparency carrier one side surface and the light wave absorbed layer covering this transparency carrier, can come to carrying out absorption from the light of board reflection in exposure process, reduce reverberation to the interference of exposure imaging process, improve exposure imaging precision, and then improve Presentation Function tunic layer precision, improve display base plate quality, improve yield, reduce production cost, improve the display effect of the display floater comprising this display base plate.
Embodiment two
Please refer to Fig. 5, Fig. 5 is the sectional structure schematic diagram of a kind of display base plate that the utility model embodiment two provides.The display base plate that the present embodiment provides comprises: transparency carrier 11; Be positioned at transparency carrier 11 1 side surface and cover the light wave absorbed layer 13 of transparency carrier 11; Be positioned at the Presentation Function layer 12 of transparency carrier 11 1 side surface.
Particularly, in the present embodiment, light wave absorbed layer 13 is positioned at a side surface of transparency carrier 11 and directly contacts with transparency carrier 11, and Presentation Function layer 12 is positioned at the opposite side surface of transparency carrier 11.Namely Presentation Function layer 12 and light wave absorbed layer 13 are positioned at the not same surface of transparency carrier 11.And prepare in exposure process at display base plate, Presentation Function layer 12 is arranged closer to the light source of exposure machine, and light wave absorbed layer 13 is arranged closer to the board of exposure machine.In exposure process, light source is used for exposing the rete in Presentation Function layer 12, in the process, has the board of part light through display base plate conduction exposure machine, and is reflected back toward display base plate at board.Now light wave absorbed layer 13 can carry out absorbing and filtering to the light of these transmittance and reflectance, and diminished reflex light, to the interference of rete exposure in Presentation Function layer 12, improves the exposure accuracy of rete in Presentation Function layer 12.
Further, in order to improve display base plate quality further, in the present embodiment, light wave absorbed layer 13 comprises the first light wave absorbed layer 131, second light wave absorbed layer 132 and the 3rd light wave absorbed layer 133.As shown in Figure 5, more specifically, first light wave absorbed layer 131 directly contacts with transparency carrier 11, the side deviated from mutually with transparency carrier 11 that second light wave absorbed layer 132 is positioned at the first light wave absorbed layer 131, the 3rd light wave absorbed layer 133 is positioned at the side that the second light wave absorbed layer 132 deviates from mutually with the first light wave absorbed layer 131.
As can be seen from Figure 4, the setting of individual layer light wave absorbed layer, although ultraviolet region light wave transmitance can be reduced, but also reduce the transmitance of visible region (400 ~ 800 nanometer) light wave simultaneously, namely when employing comprises the display unit of this display base plate, likely reduce the transmitance of the visible ray from backlight, cause the visible light transmissivity of display unit to decline, increase power consumption.
Therefore, adopt layer light wave absorbent layer structure of three shown in the present embodiment, while reduction ultraviolet region light wave transmitance, can not reduce the transmitance of visible region light wave.In the present embodiment, three layers of light wave absorbed layer all adopt physical material to form, and, first light wave absorbed layer 131 comprise in niobium oxide, cerium oxide, titanium oxide, zirconia and scandium oxide one or more, in the present embodiment, adopt niobium oxide as the first light wave absorbed layer 131, it mainly plays filtration to ultraviolet region light wave and absorption, the conclusion that its thickness draws in can testing with reference to figure 4, does not repeat them here.Second light wave absorbed layer 132 is silica (SiO2), 3rd light wave absorbed layer 133 is zinc oxide (ZnO), the Main Function of the second light wave absorbed layer 132 and the 3rd light wave absorbed layer 133 is work in coordination with the first light wave absorbed layer 131, increases visible region light wave transmitance.
Please refer to Fig. 6, the light transmittance simulation curve figure of the display base plate that Fig. 6 provides for the utility model embodiment two.And concrete, in the present embodiment, the thickness of the first light wave absorbed layer 131 is 26 nanometers, and the thickness of the second light wave absorbed layer 132 is 70 nanometers, and the thickness of the 3rd light wave absorbed layer 133 is 40 nanometers, and namely light wave absorbed layer 13 gross thickness is 136 nanometers.As can be seen from Figure 6, adopt the display base plate that the present embodiment provides, its light wave transmitance in ultra-violet (UV) band (being less than 400 nanometers) lower than 40%, and its light wave transmitance at visible region (400 ~ 800 nanometer) relative to Fig. 4 in adopt the display base plate of individual layer light wave absorbed layer greatly to improve.
In order to contrast the effect of individual layer light wave absorbed layer and three layers of light wave absorbed layer, the present utility model people has done same thickness individual layer light wave absorbed layer and three layers of light wave absorbed layer absorption effect contrast are tested, in this experiment, individual layer light wave absorbed layer adopts thickness to be the niobium oxide of 136 nanometers respectively, silica and zinc oxide are as absorbed layer, its structure as shown in Figure 2, in three layers of light wave absorbed layer, the thickness of the first light wave absorbed layer 131 is adopted to be the niobium oxide of 26 nanometers, the thickness of the second light wave absorbed layer 132 is the silica of 70 nanometers, the thickness of the 3rd light wave absorbed layer 133 is the zinc oxide of 40 nanometers.
Please refer to Fig. 7, Fig. 7 is same thickness individual layer and three layers of light wave absorbed layer and transmitance relation simulation curve figure.As can be seen from the figure, in ultra-violet (UV) band (wavelength is less than 400 nanometers), three layers of light wave absorbed layer of same thickness adopt individual layer light wave absorbed layer to have larger absorption for ultraviolet light compared to other three kinds, its transmitance can reach less than 40%.And in identical ultra-violet (UV) band, other three kinds adopt its transmitance of individual layer light wave absorbed layer to occur a crest, the wavelength namely for ultra-violet (UV) band does not have specific absorption.And at visible region, both transmitances are close, three layers of light wave absorbed layer and the transmitance adopting mono-layer oxidized niobium absorbed layer all comparatively large, adopt silica, then transmitance be less for the display base plate of zinc oxide individual layer light wave absorbed layer.As can be seen from experimental simulation data, adopting the light wave absorbed layer of three-decker, while can absorbing not reducing ultra-violet (UV) band light wave, improving the transmitance of visible region light wave.It should be noted that, in the present embodiment be the position relationship of three layers of light wave absorbed layer and thickness only as an example, can not using position relationship in the present embodiment and thickness as restriction of the present utility model.Wherein preferably the first light wave absorbed layer 131 is 20 ~ 50 nanometers, and the second light wave absorbed layer 132 is 60 ~ 80 nanometers, and the 3rd light wave absorbed layer 133 is 35 ~ 45 nanometers.In other embodiment of the present utility model, can also be other position relationship, can be such as the 3rd light wave absorbed layer near transparency carrier, also can be that the second light wave absorbed layer is near glass substrate.
Further, with embodiment one similarly, the display base plate in the present embodiment can be array base palte, can be also color membrane substrates, not repeat them here.
The display base plate that the present embodiment provides, comprise and be positioned at transparency carrier one side surface and the light wave absorbed layer covering this transparency carrier, can come to carrying out absorption from the light of board reflection in exposure process, reduce reverberation to the interference of exposure imaging process, improve exposure imaging precision, and then improve Presentation Function tunic layer precision, improve display base plate quality, improve yield, reduce production cost, improve the display effect of the display floater comprising this display base plate.
Embodiment three
Please refer to Fig. 8, Fig. 8 is the sectional structure schematic diagram of a kind of display base plate that the utility model embodiment three provides.The display base plate that the present embodiment provides comprises: transparency carrier 11; Be positioned at transparency carrier 11 1 side surface and cover the light wave absorbed layer 13 of transparency carrier 11; Be positioned at the Presentation Function layer 12 of transparency carrier 11 1 side surface.
Particularly, in the present embodiment, light wave absorbed layer 13 is positioned at a side surface of transparency carrier 11 and directly contacts with transparency carrier 11, and Presentation Function layer 12 is positioned at the surperficial with light wave absorbed layer the same side of transparency carrier 11.Namely Presentation Function layer 12 and light wave absorbed layer 13 are positioned at the same side surface of transparency carrier 11.
Further, more specifically, in the present embodiment, Presentation Function layer 12 is sandwich construction, and light wave absorbed layer is between transparency carrier 11 with Presentation Function layer 12 and directly contact with transparency carrier 11.Namely in real base plate exposure process, light wave absorbed layer 13 compares Presentation Function layer 12 closer to exposure machine board, light wave absorbed layer 13 can carry out absorbing and filtering to the light of the transmittance and reflectance from light source, weaken reverberation from board to the interference of rete exposure in Presentation Function layer 12, improve the exposure accuracy of rete in Presentation Function layer 12.
Preferably, Presentation Function layer 12 is sandwich construction, and it is near the layer position insulating barrier of light wave absorbed layer 13.This is because light wave absorbed layer is made up of one or more inorganic material comprised in niobium oxide, cerium oxide, titanium oxide, zirconia and scandium oxide, portion of material is semi-conducting material, can have an impact to the conductive material layer in Presentation Function layer, cause short circuit or produce electric capacity.
Because Presentation Function layer can be array base palte or color membrane substrates, and array base palte and color membrane substrates are generally sandwich construction, and therefore, light wave absorbed layer can also between the sandwich construction of Presentation Function layer.
The display base plate that the present embodiment provides, comprise and be positioned at transparency carrier one side surface and the light wave absorbed layer covering this transparency carrier, can come to carrying out absorption from the light of board reflection in exposure process, reduce reverberation to the interference of exposure imaging process, improve exposure imaging precision, and then improve Presentation Function tunic layer precision, improve display base plate quality, improve yield, reduce production cost, improve the display effect of the display floater comprising this display base plate.
Embodiment four
Please refer to Fig. 9, Fig. 9 is the sectional structure schematic diagram of a kind of display base plate that the utility model embodiment four provides.The display base plate that the present embodiment provides comprises: transparency carrier 11; Be positioned at transparency carrier 11 1 side surface and cover the light wave absorbed layer 13 of transparency carrier 11; Be positioned at the Presentation Function layer 12 of transparency carrier 11 1 side surface.
Further, in the present embodiment, light wave absorbed layer 13 is positioned at a side surface of transparency carrier 11 and directly contacts with transparency carrier 11, and Presentation Function layer 12 is positioned at the surperficial with light wave absorbed layer the same side of transparency carrier 11.Namely Presentation Function layer 12 and light wave absorbed layer 13 are positioned at the same side surface of transparency carrier 11.
Further, in the present embodiment, light wave absorbed layer 13 comprises the first light wave absorbed layer 131, second light wave absorbed layer 132 and the 3rd light wave absorbed layer 133.More specifically, 3rd light wave absorbed layer 133 directly contacts with transparency carrier 11, the side deviated from mutually with transparency carrier 11 that second light wave absorbed layer 132 is positioned at the 3rd light wave absorbed layer 133, the first light wave absorbed layer 131 is positioned at the side that the second light wave absorbed layer 132 deviates from mutually with the 3rd light wave absorbed layer 133.With embodiment two similarly, adopt the light wave absorbed layer 13 of three-decker, while the light wave transmitance of reduction ultra-violet (UV) band, can not reduce the transmitance of visible region light wave, improve the display effect comprising the display unit of this display base plate.
And with embodiment three similarly, the light wave absorbed layer 13 that the present embodiment provides between Presentation Function layer 12 and transparency carrier 11, between the Presentation Function layer 12 of sandwich construction, can not repeat them here yet.
The display base plate that the present embodiment provides, comprise and be positioned at transparency carrier one side surface and the light wave absorbed layer covering this transparency carrier, can come to carrying out absorption from the light of board reflection in exposure process, reduce reverberation to the interference of exposure imaging process, improve exposure imaging precision, and then improve Presentation Function tunic layer precision, improve display base plate quality, improve yield, reduce production cost, improve the display effect of the display floater comprising this display base plate.
Embodiment five
Please refer to Figure 10, Figure 10 is the structural representation of a kind of display panels that the utility model embodiment five provides.As shown in Figure 10, the display panels that the utility model embodiment four provides comprises: the first display base plate 1, second display base plate 2, and is held on the liquid crystal layer 3 between the first display base plate 1 and the second display base plate 2.This first display base plate 1 and the second display base plate 2 are by sealed plastic box 4 contraposition laminating.
Particularly, at least one in this first display base plate 1 and the second display base plate 2 is the display base plate in the various embodiments described above.Specifically comprise transparency carrier; Be positioned at transparency carrier one side surface and cover the light wave absorbed layer of transparency carrier; Be positioned at the Presentation Function layer of transparency carrier one side surface.
The display panels that the present embodiment provides, it display base plate comprised comprises and is positioned at transparency carrier one side surface and the light wave absorbed layer covering this transparency carrier, can come to carrying out absorption from the light of board reflection in exposure process, reduce reverberation to the interference of exposure imaging process, improve exposure imaging precision, and then improve Presentation Function tunic layer precision, improve display base plate quality, improve yield, reduce production cost, improve the display effect of display floater.
Above content is in conjunction with concrete preferred embodiment further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, without departing from the concept of the premise utility, some simple deduction or replace can also be made, all should be considered as belonging to protection domain of the present utility model.
Claims (17)
1. a display base plate, comprising:
Transparency carrier;
Be positioned at described transparency carrier one side surface and cover the light wave absorbed layer of described transparency carrier;
Be positioned at the Presentation Function layer of described transparency carrier one side surface.
2. display base plate as claimed in claim 1, it is characterized in that, the optical wavelength that described light wave absorbed layer can effectively absorb is more than or equal to 350 nanometers and is less than or equal to 450 nanometers.
3. display base plate as claimed in claim 2, it is characterized in that, described effective assimilation ratio is more than or equal to 40%.
4. display base plate as claimed in claim 1, it is characterized in that, described light wave absorbed layer is made up of inorganic material.
5. display base plate as claimed in claim 4, it is characterized in that, described light wave absorbed layer comprises the first light wave absorbed layer, the second light wave absorbed layer and the 3rd light wave absorbed layer.
6. display base plate as claimed in claim 5, is characterized in that, described first light wave absorbed layer comprise in niobium oxide, cerium oxide, titanium oxide, zirconia and scandium oxide one or more.
7. display base plate as claimed in claim 6, it is characterized in that, described first light wave absorber thickness is 20 to 50 nanometers.
8. display base plate as claimed in claim 5, it is characterized in that, described second light wave absorbed layer is silica.
9. display base plate as claimed in claim 5, it is characterized in that, described 3rd light wave absorbed layer is zinc oxide.
10. the display base plate as described in any one of claim 5 ~ 9, is characterized in that, described light wave absorbed layer is positioned at a side surface of described transparency carrier and directly contacts with described transparency carrier, and described Presentation Function layer is positioned at the opposite side surface of described transparency carrier.
11. display base plates as claimed in claim 10, it is characterized in that, described first light wave absorbed layer directly contacts with described transparency carrier, the side deviated from mutually with described transparency carrier that described second light wave absorbed layer is positioned at described first light wave absorbed layer, described 3rd light wave absorbed layer is positioned at the side that described second light wave absorbed layer deviates from mutually with described first light wave absorbed layer.
12. display base plates as described in any one of claim 5 ~ 9, is characterized in that, described light wave absorbed layer and described Presentation Function layer are positioned at the surface, the same side of described transparency carrier.
13. display base plates as claimed in claim 12, it is characterized in that, described Presentation Function layer is sandwich construction, described light wave absorbed layer is between described transparency carrier with described Presentation Function layer and directly contact with described transparency carrier, or described light wave absorbed layer is between described sandwich construction Presentation Function layer.
14. display base plates as claimed in claim 13, it is characterized in that, described 3rd light wave absorbed layer directly contacts with described transparency carrier, the side deviated from mutually with described transparency carrier that described second light wave absorbed layer is positioned at described 3rd light wave absorbed layer, described first light wave absorbed layer is positioned at the side that described second light wave absorbed layer deviates from mutually with described 3rd light wave absorbed layer.
15. display base plates as claimed in claim 1, it is characterized in that, described Presentation Function layer is array of display layer, and described array of display layer comprises at least one deck in gate metal layer, source-drain electrode metal level, transparent oxide conductive layer, semiconductor layer, planarization layer, insulating barrier.
16. display base plates as claimed in claim 1, it is characterized in that, described Presentation Function layer is color rete, and described color rete comprises at least one deck in colored color blocking layer, black matrix layer, planarization layer, transparent oxide conductive layer.
17. 1 kinds of display panels, comprise the display base plate as described in any one of claim 1 ~ 16.
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| CN201420823442.1U CN204302622U (en) | 2014-12-23 | 2014-12-23 | A kind of display base plate and display panels |
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| CN201420823442.1U CN204302622U (en) | 2014-12-23 | 2014-12-23 | A kind of display base plate and display panels |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106292043A (en) * | 2015-05-29 | 2017-01-04 | 鸿富锦精密工业(深圳)有限公司 | Electric connection structure and array base palte |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106292043A (en) * | 2015-05-29 | 2017-01-04 | 鸿富锦精密工业(深圳)有限公司 | Electric connection structure and array base palte |
| CN106292043B (en) * | 2015-05-29 | 2019-10-25 | 鸿富锦精密工业(深圳)有限公司 | Electric connection structure and array substrate |
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