CN203631557U - An organic light-emitting display panel and a display apparatus - Google Patents

Abstract

The utility model relates to an organic light-emitting display panel and a display apparatus. The organic light-emitting display panel comprises a first substrate and a second substrate. A plurality of pixels are arranged on the first substrate. Each pixel comprises an organic light-emitting diode. The second substrate is provided with auxiliary electrodes in electric connection with cathodes of the organic light-emitting diodes. The auxiliary electrodes are positioned on one side, facing the first substrate, of the second substrate, and are corresponding to gaps between the adjacent pixels on the first substrate. Anti-reflection layers form on the auxiliary electrodes and are used for absorbing rays shoot towards the auxiliary electrodes. According to the utility model, through the formation of the auxiliary electrodes on the second substrate and the electric connection of the auxiliary electrodes with the cathodes of the organic light-emitting diodes, a voltage drop of the cathodes can be substantially reduced or prevented; the uniformity of display brightness can be raised; and simultaneous, the anti-reflection layers forming on the auxiliary electrodes can prevent light leakage phenomenon due to reflection of the metal auxiliary electrodes and raise the contrast of displaying.

Description

Organic electroluminescence display panel, display unit

Technical field

The utility model belongs to display unit manufacturing technology field, is specifically related to a kind of organic electroluminescence display panel, display unit.

Background technology

Organic electroluminescence display panel is a kind of novel panel display apparatus, has active illuminating, high brightness, ultra-thin, low-power consumption, with great visual angle and the plurality of advantages such as operating temperature range is wide.

In organic electroluminescence display panel, organic electroluminescence device can be divided into end transmitting according to light direction classification and top is launched two kinds, Figure 1 shows that the end radiation organic EL part structural representation that prior art is conventional, this device comprises the reflective cathode 11, electron transfer layer 12, luminescent layer 13, hole transmission layer 14, transparent anode 15 and the substrate 16 that are arranged in order.This device is generally take tin indium oxide (ITO) as transparent anode, and light goes out from this side-draw of ITO substrate, therefore be called end ballistic device (Bottom-emitting OLED, BEOLED).And top ballistic device (Top-emitting OLED, the taking-up of light TEOLED) is from top electrode one side, be illustrated in figure 2 top radiation organic EL part structural representation in prior art, this device comprises the negative electrode 21, electron transfer layer 22, luminescent layer 23, hole transmission layer 24, reflection anode 25 and the substrate 26 that are arranged in order, and this device light goes out from negative electrode 21 side-draws.

Conventional end emitting structural device, the light sending can only be from driving the peristome that the array base palte of this panel arranges to penetrate, but OLED pixel-driving circuit complex structure, conventionally at least need two thin-film transistors (TFT) and an electric capacity, most of luminous all because blocking of TFT and various electrodes is wasted, cause aperture opening ratio very low, emitting structural of the common end appears the luminous luminous 30%-50% of luminescent layer that only accounts for outside panel.And adopt emission structure at top can solve the common low deficiency of end ballistic device aperture opening ratio, from the direct emission of light of top cathode surface of device, aperture opening ratio is not almost affected, be conducive to realize large-scale, high information content, high display brightness, high-resolution organic flat-panel monitor.

In the ballistic device of top, because need seeing through Organic Light Emitting Diode negative electrode, takes out light, therefore require cathode material to there is higher transmitance, in the ballistic device of top, choosing of cathode material mainly contains two classes, the first kind is transparent oxide, as tin indium oxide (ITO), ITO is transparent conductive material, reduce the light loss in the emission process of top, but this class material also has relevant shortcoming, such as resistance is large, sputtering process is complicated and sputtering process can cause damage to organic layer, finally affects display effect.Equations of The Second Kind is metal material, as shown in Figure 2, use the mode of hot evaporation this metalloid material can be plated in to electron transfer layer top layer, form metallic cathode, the metallic cathode material using at present comprises: Al, Ag, Al/Ag, Mg/Ag, Ca/Ag, Sm/Ag etc., the manufacture craft process of metallic cathode is simple, and evaporation metal material is less to organic layer infringement.But in the process of this metalloid material of evaporation, need to control the thickness of metallic cathode layer, the too thick meeting of metallic cathode causes the transmitance of device to reduce, and affects display brightness, shows power consumption thereby increase; Therefore metallic cathode thinner thickness in the ballistic device of common top, but thin metallic cathode overall electrical resistance is too large, thus there is relatively high voltage drop, specifically, along with the increase of size, the voltage drop of negative electrode significantly increases, thus cause picture quality and display characteristic inhomogeneous.

Utility model content

Technical problem to be solved in the utility model comprises, for existing top transmitting organic electroluminescence display panel above shortcomings, the organic electroluminescence display panel, the display unit that provide a kind of electric conductivity of negative electrode to strengthen, thereby effectively reduce because of the too thin voltage drop producing of negative electrode, improve the uniformity showing.

The technical scheme that solution the utility model technical problem adopts is a kind of organic electroluminescence display panel, comprising: first substrate, there are multiple pixels that are located thereon, and each pixel includes Organic Light Emitting Diode; Second substrate, has the auxiliary electrode being connected with the cathodic electricity of described Organic Light Emitting Diode, described auxiliary electrode second substrate in the face of a side of first substrate and and first substrate on space between neighbor corresponding; On described auxiliary electrode, be formed with anti-reflection layer, in order to absorb the light of auxiliary electrode described in directive.

Preferably, described auxiliary electrode has fenestral fabric.

Preferably, the resistance of the resistance ratio negative electrode of described auxiliary electrode is low.

Preferably, anti-reflection layer covers auxiliary electrode surface, and area coverage is more than or equal to auxiliary electrode table

Area, the edge of described anti-reflection layer is no more than non-display area.

Preferably, on described anti-reflection layer, be formed with chock insulator matter, the cross section face that it contacts with anti-reflection layer

The long-pending anti-reflection layer surface area that is less than.

Preferably, be formed with transparency conducting layer on the surface of described anti-reflection layer and described chock insulator matter, transparency conducting layer contacts auxiliary electrode to be electrically connected to described negative electrode with negative electrode.

Preferably, the gap of transparency conducting layer between first substrate neighbor is connected with cathodic electricity.

Preferably, described transparency conducting layer covers second substrate completely, and transparency conducting layer is electrically connected with the upper surface of anti-reflection layer, is electrically connected with the side of auxiliary electrode.

Preferably, Organic Light Emitting Diode comprises the luminescent layer for transmitting white.

Further preferably, viewing area corresponding to described second substrate comprises red filter layer, green filter layer, blue color filter layer.

Preferably, Organic Light Emitting Diode comprises the luminescent layer for red-emitting, green glow or blue light.

Preferably, described first substrate also includes the thin-film transistor that multiple and described Organic Light Emitting Diode is electrically connected.

The technical scheme that solution the utility model technical problem adopts is a kind of display unit, and described display unit comprises above-mentioned organic electroluminescence display panel.

The utility model provides a kind of organic electroluminescence display panel, display unit.Described organic electroluminescence display panel comprises: first substrate, there are multiple pixels that are located thereon, and each pixel includes Organic Light Emitting Diode; Second substrate, has the auxiliary electrode being connected with the cathodic electricity of described Organic Light Emitting Diode, described auxiliary electrode second substrate in the face of a side of first substrate and and first substrate on space between neighbor corresponding; On described auxiliary electrode, be formed with anti-reflection layer, in order to absorb the light of auxiliary electrode described in directive.

The display floater that the utility model provides, in second substrate, increase on the one hand auxiliary electrode, auxiliary electrode is connected with cathodic electricity, strengthen the electric conductivity of negative electrode, thereby effectively reduce because of negative electrode too thin, the too large and voltage drop that produces of resistance, improve the uniformity showing, and, be arranged at complex structure with auxiliary electrode, organic electroluminescence display panel on the more first substrate of processing procedure is compared, auxiliary electrode is arranged on second substrate can avoid the injury of auxiliary electrode processing procedure to Organic Light Emitting Diode in first substrate, improve the overall yield that organic electroluminescence display panel is manufactured, on the other hand, on auxiliary electrode, be formed with anti-reflection layer, can absorb the light of auxiliary electrode described in directive, reduce the light leak between the pixel causing due to the reflection of auxiliary electrode, improve display comparison degree.

In the time that described organic electroluminescence display panel is applied to display unit, arranging of its auxiliary electrode can reduce display unit due to the voltage drop that negative electrode is too thin, resistance produces too greatly, make display unit have good show uniformity, on auxiliary electrode, be formed with anti-reflection layer in addition, can absorb the light of auxiliary electrode described in directive, reduce the light leak between the pixel causing due to the reflection of auxiliary electrode, can improve the display comparison degree of display unit.

Accompanying drawing explanation

Figure 1 shows that the end radiation organic EL part structural representation that prior art is conventional

Fig. 2 is top radiation organic EL part structural representation in prior art;

Fig. 3 is the structural representation of the utility model organic electroluminescence display panel the first embodiment;

To be organic electroluminescence display panel cause the structural representation of light leak between pixel because of auxiliary electrode reflection to Fig. 4;

Fig. 5 is a kind of structural representation of the utility model organic electroluminescence display panel the second embodiment;

Fig. 6 is auxiliary electrode structure schematic diagram in the second substrate of the utility model organic electroluminescence display panel;

Fig. 7 is the another kind of structural representation of the utility model organic electroluminescence display panel the second embodiment.

Description of reference numerals:

11-reflective cathode; 12-electron transfer layer; 13-luminescent layer;

14-hole transmission layer; 15-transparent anode; 16-substrate;

21-negative electrode; 22-electron transfer layer; 23-luminescent layer;

24-hole transmission layer; 25-reflection anode; 26-substrate;

100-first substrate; The 101-the first substrate; 102-Organic Light Emitting Diode;

103-negative electrode; 104-luminescent layer; 105-anode;

106-thin-film transistor; 1061-grid; 1062-gate insulation layer;

1063-active layer; 1064-etching barrier layer; 1065-source electrode;

1066-drain electrode; 200-second substrate; The 201-the second substrate;

202-auxiliary electrode; 203-anti-reflection layer; 204-chock insulator matter;

205-transparency conducting layer; 206-filter layer; 207-black matrix;

Embodiment

For making those skilled in the art understand better the technical solution of the utility model, below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.Obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

For making those skilled in the art better understand the technical solution of the utility model, existing to the following regulation of part description work in embodiment:

First: be the position relationship of each structure in organic electroluminescence display panel in better description the utility model embodiment, with reference to the production order of described first substrate and described second substrate routine with to the final organic electroluminescence display panel structure forming after box, to description used in execution mode " on ", " ... on " do following regulation: for the structure in described first substrate, take near or in the face of the direction of described second substrate as " on ", for the structure in described second substrate, take near or in the face of the direction of first substrate as " on ".For example, in the time of the structure of describing in second substrate, " A is positioned on B " be interpreted as " A be positioned at B near or in the face of a side of first substrate "; In the time of the structure of describing in first substrate, " C is positioned on D " be interpreted as " C be positioned at D near or in the face of a side of second substrate ".In addition, on a structure is positioned at another structure time, this structure can be located immediately in another structure, or by one or more intermediate structures between them and be indirectly positioned in another structure.

Second: in the description of the utility model organic electroluminescence display panel embodiment, " electrical connection " is a kind of functional description, it should be understood that the situation that such description has been contained described interstructural direct contact or has indirectly been electrically connected by other one or more middle conductive structure.

Embodiment 1:

As shown in Figure 3, the utility model embodiment provides a kind of organic electroluminescence display panel, described organic electroluminescence display panel comprises: first substrate 100, described first substrate 100 comprises the first substrate 101, first substrate 100 includes multiple pixel P, for better describing the structure in organic electroluminescence display panel, Fig. 3 has only exemplarily provided a whole pixel region, each pixel P includes Organic Light Emitting Diode 102, and Organic Light Emitting Diode 102 comprises negative electrode 103, luminescent layer 104 and anode 105; Described organic electroluminescence display panel also comprises second substrate 200, second substrate 200 has the auxiliary electrode 202 being electrically connected with the negative electrode 103 of described Organic Light Emitting Diode 102, described auxiliary electrode 202 second substrate 200 in the face of a side of first substrate 100 and and first substrate 100 on space between neighbor corresponding; On described auxiliary electrode 202, be formed with anti-reflection layer 203, described anti-reflection layer 203 is in order to absorb the light of auxiliary electrode 202 described in directive.

Should be noted that, second substrate 200 described in the utility model embodiment has the auxiliary electrode 202 being electrically connected with the negative electrode 103 of described Organic Light Emitting Diode 102, contain the situation that auxiliary electrode 202 is electrically connected indirectly by other one or more middle conductive structure, if middle conductive structure can be the anti-reflection layer 203 as shown in Fig. 3, chock insulator matter 204, transparency conducting layer 205 etc., also can be other structures, not limit at this.

The organic electroluminescence display panel that the utility model embodiment provides, by auxiliary electrode 202 being set in second substrate 200 and being electrically connected on the negative electrode 103 in Organic Light Emitting Diode 102, reduce on the whole the resistance of negative electrode 103, can strengthen the electric conductivity of negative electrode 103, thereby effectively reduce because of negative electrode 103 too thin, the too large and voltage drop that produces of resistance, improve the uniformity showing, and the organic electroluminescence display panel that the utility model embodiment provides, auxiliary electrode 202 is arranged on second substrate 200, be arranged at complex structure with auxiliary electrode 202, organic electroluminescence display panel in the more first substrate 100 of processing procedure is compared, auxiliary electrode 202 is arranged on second substrate 200 can avoid the injury of auxiliary electrode 202 processing procedures to Organic Light Emitting Diode 102 in first substrate 100, can effectively improve organic electroluminescence display panel entirety yield, the organic electroluminescence display panel that the utility model embodiment provides simultaneously, on auxiliary electrode 202, be also formed with anti-reflection layer 203, anti-reflection layer 203 can absorb the light of auxiliary electrode 202 described in directive, reduces the light leak between the pixel causing due to the reflection of auxiliary electrode 202, improves display comparison degree.For explaining the technique effect of the utility model embodiment organic electroluminescence display panel, as shown in Figure 4, anti-reflection layer 203 if being set separately, auxiliary electrode 202 is not set on auxiliary electrode 202, because conventional auxiliary electrode 202 materials adopt the metal material that resistivity is low conventionally, and these metal materials often have higher reflectivity, therefore, when organic electroluminescence display panel shown in application drawing 4 shows, the light 300 that Organic Light Emitting Diode 102 in single pixel is launched reflexes in neighbor through auxiliary electrode 202, cause light leak between pixel and the phenomenon of colour mixture, the contrast showing is reduced, the effect that impact entirety shows.And the organic electroluminescence display panel that the utility model embodiment provides by arranging anti-reflection layer 203 on auxiliary electrode 202, anti-reflection layer 203 has good absorption to the light 300 of directive auxiliary electrode 202, the phenomenon of light leak between the pixel that can avoid causing due to the reflection of auxiliary electrode 202, simultaneously, anti-reflection layer 203 can play the effect of black matrix, on the second substrate 200 in the organic electroluminescence display panel that therefore the utility model embodiment provides, black matrix can be set.

Embodiment 2:

As shown in Fig. 5 and Fig. 7, the utility model embodiment provides a kind of organic electroluminescence display panel, described organic electroluminescence display panel comprises: first substrate 100, described first substrate 100 comprises the first substrate 101, first substrate 100 includes multiple pixel P, for better describing the structure in organic electroluminescence display panel, Fig. 5 and Fig. 7 have only exemplarily provided the schematic diagram of a whole pixel region, each pixel P includes Organic Light Emitting Diode 102, and Organic Light Emitting Diode 102 comprises negative electrode 103, luminescent layer 104 and anode 105; Described organic electroluminescence display panel also comprises second substrate 200, described second substrate 200 comprises the second substrate 201, and second substrate 200 has the auxiliary electrode 202 being electrically connected with the negative electrode 103 of described Organic Light Emitting Diode 102, described auxiliary electrode 202 second substrate 200 in the face of a side of first substrate 100 and and first substrate 100 on space between neighbor corresponding; On described auxiliary electrode 202, be formed with anti-reflection layer 203, described anti-reflection layer 203 is in order to absorb the light of auxiliary electrode 202 described in directive.

Wherein, preferred auxiliary electrode 202 has fenestral fabric.As shown in Figure 6, auxiliary electrode 202 is arranged on second substrate 200 and between the adjacent bright dipping pixel region of second substrate P, the fenestral fabric that auxiliary electrode 202 is mutual vertical interlaced.Certainly should be understood that, although auxiliary electrode 202 is mainly described as latticed single electrode here, auxiliary electrode 202 also can be regarded as the multiple electrodes that are electrically connected with latticed form.

Wherein, for playing better the effect that reduces cathode resistor 103, auxiliary electrode 202 materials should be the material of low-resistivity, and preferred auxiliary electrode 202 materials are selected from a kind of or its combination in aluminium, molybdenum, copper, silver, chromium, gold.

Wherein, for reducing on the whole negative electrode 103 resistance, the overall electrical resistance of the resistance ratio negative electrode 103 of auxiliary electrode 202 is low, like this by being arranged on the auxiliary electrode 202 on second substrate 200 and being electrically connected to the negative electrode on first substrate 100, can effectively reduce the overall electrical resistance of negative electrode 103, and then reduction voltage drop, improve the uniformity showing.

Wherein, preferably, anti-reflection layer 203 is positioned on auxiliary electrode 202, cover auxiliary electrode 202 surfaces completely, for avoiding better the situation of the light directive neighbor that auxiliary electrode 202 sends pixel, the area that anti-reflection layer 203 covers auxiliary electrode 202 should be more than or equal to auxiliary electrode 202 surface areas, but the setting of anti-reflection layer 203 can not affect the normal emergent ray in pixel region and then cause the aperture opening ratio of pixel and transmitance to reduce, and therefore the edge of anti-reflection layer 203 should be no more than non-display area.For simplifying the manufacture craft of anti-reflection layer 203, further preferably, the area that anti-reflection layer 203 covers auxiliary electrode 202 equals auxiliary electrode 202 surface areas, anti-reflection layer 203 and auxiliary electrode 202 can form in a step illumination process technique like this, can simplify the manufacturing process of anti-reflection layer 203, reduce cost of manufacture.

Wherein, anti-reflection layer 203 materials are the material that light is had to good absorption and conduction, preferably anti-reflection layer material is black conducting materials or comprises black pigment and the composite material of conductive powder, and described black conducting materials can be the material that has high degree of blackness and conductivity concurrently, as ruthenium-oxide; In described composite material, black pigment can be the black pigment materials such as cobalt/cobalt oxide, black titanium, sub-titanium oxide, graphite, and conductive powder can be the conductive materials such as Mo, Al, Cu, Ag, Ti, Fe.Auxiliary electrode 202 can be electrically connected with negative electrode 103 by anti-reflection layer 203 like this.

Wherein, for meeting optical microcavity design and the thick requirement of supporting case, preferably, on anti-reflection layer 203, be also formed with chock insulator matter 204, and further preferably, chock insulator matter 204 its areas of section that contact with anti-reflection layer 203 are less than anti-reflection layer 203 surface areas, and the part anti-reflection layer 203 not contacting with chock insulator matter 204 like this can play the effect of electrical connection auxiliary electrode 202 and negative electrode 103.Here it should be noted that, chock insulator matter 204 can arrange on whole anti-reflection layer 203 surfaces, also can on part anti-reflection layer 203, arrange as required, does not limit here.

Wherein, be formed with transparency conducting layer 205 on the surface of anti-reflection layer 203 and chock insulator matter 204, transparency conducting layer 205 contacts auxiliary electrode 202 to be electrically connected to described negative electrode 103 with negative electrode 103.

Wherein, transparency conducting layer 205 materials are any one or its combination in tin indium oxide and indium zinc oxide.

Wherein, preferably, the gap of transparency conducting layer 205 between first substrate 100 neighbors directly contacts and is electrically connected with negative electrode 103.

Wherein, preferably, transparency conducting layer 205 covers second substrate 200 completely, be that transparency conducting layer 205 is a whole layer material on second substrate 200, like this in manufacture craft, the film-forming process that only need carry out transparency conducting layer 205 on the second substrate 200 that completes chock insulator matter 204 manufacture crafts, without follow-up illumination process and etching technics, can reduce cost of manufacture.Certainly the utility model embodiment does not limit the structure of transparency conducting layer 205, meets at the transparency conducting layer 205 of anti-reflection layer 203 and chock insulator matter 204 surface coverage other structures of being electrically connected with negative electrode 103 and is also fine.And transparency conducting layer 205 is electrically connected with the upper surface of anti-reflection layer 203, be electrically connected with the side of auxiliary electrode 202, auxiliary electrode 202 can be electrically connected with transparency conducting layer 205 by side and finally be electrically connected on negative electrode 103 by transparency conducting layer 205 like this, also can be electrically connected with anti-reflection layer 203 by upper surface and finally be electrically connected on negative electrode 103 by transparency conducting layer 205 simultaneously, play the effect of final reduction negative electrode 103 resistance, improve the uniformity showing.

Wherein, negative electrode 103 in Organic Light Emitting Diode 102 is for covering the whole layer electrode of first substrate 100, negative electrode 103 materials can be the electric conducting materials such as Ag, Al, Al/Ag, Mg/Ag, Ca/Ag, Sm/Ag, because these negative electrode 103 material light transmissions are bad, now negative electrode 103 thickness are thin as much as possible, so that light can see through.Anode 105 materials in Organic Light Emitting Diode 102 are the material such as tin indium oxide (ITO), indium zinc oxide (IZO).

Wherein, the luminescent layer 104 in Organic Light Emitting Diode 102 is interpreted as being arranged on luminous functional layer between Organic Light Emitting Diode 102 negative electrodes 103 and anode 105.Luminescent layer 104 structures can for only comprise can be luminous material, can certainly comprise that of the prior art is better luminous other the auxiliary functional layers arranging, as, electron injecting layer, electron transfer layer, hole injection layer, hole transmission layer etc., the utility model embodiment does not limit the structure of luminescent layer.Preferably, Organic Light Emitting Diode 102 comprises the luminescent layer 104 for transmitting white, further preferably, as shown in Figure 5, in described second substrate 200, between the second substrate 201 and described auxiliary electrode 202, corresponding viewing area comprises filter layer 206, and filter layer 206 can be red filter layer, green filter layer or blue color filter layer.Should be understood that, show power consumption or other demands for realizing high permeability and reducing, filter layer 206 can also comprise white filter layer or Yellow filter layer, and the utility model embodiment does not limit the structure of filter layer 206.By the setting of filter layer, the white light that Organic Light Emitting Diode 102 sends after filtration photosphere 206 can show required color, in addition, can also comprise black matrix 207 on second substrate 200.

Wherein, preferably, as shown in Figure 7, Organic Light Emitting Diode 102 comprises the luminescent layer 104 for red-emitting, green glow or blue light, and the light transmission second substrate 200 of each color of transmitting is through mixing the picture that can demonstrate required color.

Wherein, preferably, as shown in Fig. 5 and Fig. 7, in each pixel, the anode 105 of Organic Light Emitting Diode 102 is controlled by different thin-film transistor 106 respectively, thin-film transistor 106 comprises grid 1061, gate insulation layer 1062, active layer 1063, etching barrier layer 1064, source electrode 1065, drain electrode 1066, and certainly as required, thin-film transistor can also comprise other structures.The anode 105 of Organic Light Emitting Diode 102 is electrically connected with the drain electrode 1066 of thin-film transistor 106 by via hole.The utility model embodiment does not limit the structure of thin-film transistor 106, the scope that the thin-film transistor 106 of other structures is also protected for the utility model embodiment.

The structure of a kind of organic electroluminescence display panel providing for the utility model embodiment above, the organic electroluminescence display panel that the utility model embodiment provides is not limited to said structure, as required, the organic electroluminescence display panel of the present embodiment can also comprise other conventional structures, defines other structures such as layer, passivation layer as flatness layer, pixel.

The organic electroluminescence display panel that the utility model embodiment provides, by auxiliary electrode 202 being set in second substrate 200 and being electrically connected on the negative electrode 103 in Organic Light Emitting Diode 102 by anti-reflection layer 203 and transparency conducting layer 205, reduce on the whole the resistance of negative electrode, can strengthen the electric conductivity of negative electrode 103, thereby effectively reduce because of negative electrode 103 too thin, the too large and voltage drop that produces of resistance, improve the uniformity showing, and the organic electroluminescence display panel that the utility model embodiment provides, auxiliary electrode 202 is arranged on second substrate 200, be arranged at complex structure with auxiliary electrode, organic electroluminescence display panel in the more first substrate 100 of processing procedure is compared, auxiliary electrode is arranged on second substrate 200 can avoid the injury of auxiliary electrode 202 processing procedures to Organic Light Emitting Diode 102 in first substrate 100, can effectively improve organic electroluminescence display panel entirety yield, the organic electroluminescence display panel that the utility model embodiment provides simultaneously, on auxiliary electrode 202, be also formed with anti-reflection layer 203, anti-reflection layer 203 can absorb the light of auxiliary electrode 202 described in directive, reduces the light leak between the pixel causing due to the reflection of auxiliary electrode 202, improves display comparison degree.

Embodiment 3:

The utility model embodiment provides a kind of display unit, and it comprises the organic electroluminescence display panel as described in embodiment 1 or embodiment 2.Display unit can be: any product or parts with Presentation Function such as mobile phone, panel computer, television set, display, notebook computer, DPF, navigator.

In the display unit of the present embodiment, there is the organic electroluminescence display panel in embodiment 1 or embodiment 2, by auxiliary electrode 202 being set in second substrate 200 and being electrically connected on the negative electrode 103 in Organic Light Emitting Diode 102, reduce on the whole the resistance of negative electrode, can strengthen the electric conductivity of negative electrode 103, thereby effectively reduce because of negative electrode 103 too thin, the too large and voltage drop that produces of resistance, improve the uniformity showing, therefore this display unit display effect is better, on auxiliary electrode 202, be formed with anti-reflection layer 203 in addition, can absorb the light of auxiliary electrode 202 described in directive, reduce the light leak between the pixel causing due to the reflection of auxiliary electrode 202, can improve the display comparison degree of display unit.

Finally it should be noted that: above embodiment is only unrestricted in order to the technical solution of the utility model to be described, although the utility model is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can modify or be equal to replacement the technical solution of the utility model, and not depart from the spirit and scope of technical solutions of the utility model.

Claims (13)

1. an organic electroluminescence display panel, comprising:

First substrate, has multiple pixels that are located thereon, and each pixel includes Organic Light Emitting Diode;

Second substrate, has the auxiliary electrode being connected with the cathodic electricity of described Organic Light Emitting Diode, described auxiliary electrode second substrate in the face of a side of first substrate and and first substrate on space between neighbor corresponding; On described auxiliary electrode, be formed with anti-reflection layer, in order to absorb the light of auxiliary electrode described in directive.

2. organic electroluminescence display panel according to claim 1, is characterized in that, described auxiliary electrode has fenestral fabric.

3. organic electroluminescence display panel according to claim 1, is characterized in that, the resistance of the resistance ratio negative electrode of described auxiliary electrode is low.

4. organic electroluminescence display panel according to claim 1, is characterized in that, anti-reflection layer covers auxiliary electrode surface, and area coverage is more than or equal to auxiliary electrode surface area, and the edge of described anti-reflection layer is no more than non-display area.

5. organic electroluminescence display panel according to claim 1, is characterized in that, on described anti-reflection layer, is formed with chock insulator matter, and the area of section that described chock insulator matter contacts with anti-reflection layer is less than anti-reflection layer surface area.

6. organic electroluminescence display panel according to claim 5, is characterized in that, is formed with transparency conducting layer on the surface of described anti-reflection layer and described chock insulator matter, and transparency conducting layer contacts auxiliary electrode to be electrically connected to described negative electrode with negative electrode.

7. organic electroluminescence display panel according to claim 6, is characterized in that, the gap of described transparency conducting layer between first substrate neighbor is connected with cathodic electricity.

8. organic electroluminescence display panel according to claim 6, is characterized in that, described transparency conducting layer covers second substrate completely, and transparency conducting layer is electrically connected with the upper surface of anti-reflection layer, is electrically connected with the side of auxiliary electrode.

9. organic electroluminescence display panel according to claim 1, is characterized in that, Organic Light Emitting Diode comprises the luminescent layer for transmitting white.

10. organic electroluminescence display panel according to claim 9, is characterized in that, the viewing area that described second substrate is corresponding comprises red filter layer, green filter layer, blue color filter layer.

11. organic electroluminescence display panels according to claim 1, is characterized in that, Organic Light Emitting Diode comprises the luminescent layer for red-emitting, green glow or blue light.

12. according to the arbitrary described organic electroluminescence display panel of claim 1-11, it is characterized in that, described first substrate also includes the thin-film transistor that multiple and described Organic Light Emitting Diode is electrically connected.

13. 1 kinds of display unit, is characterized in that, comprise in claim 1～12 organic electroluminescence display panel described in any one.

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