CN1747614A - Active organic electroluminescent display panel and production thereof - Google Patents

Abstract

An actively luminous organic display panel excited electrically is composed of a substrate, a pixel structure layer on said substrate and consisting of an active element array and an anode pattern layer, an organic luminous layer on said anode pattern layer and consisting of the first, the second and the third organic luminous patterns, and a cathode pattern layer on said organic luminous layer and consisting of the first, the second and the third cathode patterns relative to said anode patterns.

Description

Active organic electroluminescent display panel and manufacture method thereof

Technical field

The present invention relates to a kind of display floater and manufacture method thereof, particularly relate to a kind of active organic electroluminescent display panel (Active Matrix Organic Electro-Luminescent Displaypanel, AMOELD panel) and manufacture method thereof.

Background technology

The various communications that the information communication industry has become now main flow industry, particularly portable show the emphasis that product develops especially.And because flat-panel screens is communication interface between people and the information, so its development particular importance that seems.Wherein, organic electro-luminescent display (0rganicElectro-Luminescent Display, OELD) with its self-luminous, wide viewing angle, power saving, processing procedure is simple and easy, low-cost, operating temperature is extensive, the advantage of high answer speed and full-colorization or the like, make it have great potentiality, therefore be expected to become the main flow of flat-panel screens of future generation.

Organic electro-luminescent display is the display that a kind of self-luminous characteristic of utilizing luminous organic material reaches display effect, wherein the molecular weight according to luminous organic material is divided into micromolecule organic electro-luminescent display (Small Molecule OELD, SM-OELD) with macromolecule electro-exciting light-emitting display (Polymer Electro-Luminescent Device, PELD) two big classes.Both ray structures are made of pair of electrodes and organic material layer.When applying direct voltage, organic luminous material layer is injected from anode (anode) in the electricity hole, and electronics injects organic luminous material layer from negative electrode (cat hode), because the potential difference that extra electric field caused makes two kinds of carriers of electric hole and electronics (carrier) move in the luminous organic material layer and produces radiativity to combine (Radiative Recombination).Part can form the luminous organic material molecular excitation single excite state molecule in conjunction with the energy of being emitted again by electronics electricity hole.When single excite state molecule releases energy when getting back to ground state, wherein a certain proportion of energy can be emitted and luminous in the mode of photon, and this is the principle of luminosity of organic electro-luminescent display.

A kind of now active organic light-emitting display (Active Matrix OLED) is in positive development, it is to form anode layer, luminous organic material layer and cathode layer in regular turn on the substrate that is formed with a plurality of membrane transistors (electric crystal is a transistor, below all be called transistor).In view of the above, organic light emitting display is to utilize membrane transistor to drive.It should be noted that above-mentioned cathode layer is to be formed on the luminous organic material layer comprehensively, so this kind design is that target provides common operating voltage.Yet because the luminous efficiency between the different organic materials, preferable operating voltage decay with briliancy and be not quite similar, so the design of this kind cathode layer and negative electrode method of operation are difficult to satisfy the demand of full-colorization of display.

Japan Patent numbering spy opens flat 10-319910 and discloses the current difference of utilizing between scan electrode (scanelectrode) and common electrode (common electrode), and compare institute's current detected signal (current detection signal) and baseline signal (referencesignal), with decision input current size, and then reach briliancy adjustment (brightnessadjustment).Yet the shortcoming of this kind design is that circuit design is quite complicated.In addition, Japan Patent numbering spy opens flat 11-073158 and discloses to utilize the light-emitting component that uses varying number at picture element (pixel) zone of different colours, to overcome the different problem of luminosity.Though this kind practice can be so that each colour light emitting brightness be close, picture element area difference is with the problems such as aspect ratio difference, resolution (resolution) reduction and driving complexity that cause.In addition, the Japan Patent numbering is special opens the converting form that flat 11-073159 proposition utilizes corresponding expression data and each material behavior to set up, and produces the relative voltage (similar look-up table) that is fit to material according to input signal, and then produces more approaching briliancy.Yet shortcoming is because material behavior makes a variation, and this corresponding form is set up and is difficult for.

This shows that above-mentioned existing active organic electroluminescent display panel and manufacture method thereof obviously still have inconvenience and defective, and demand urgently further being improved in structure, method and use.In order to solve the problem that active organic electroluminescent display panel and manufacture method thereof exist, relevant manufacturer there's no one who doesn't or isn't seeks solution painstakingly, but do not see always that for a long time suitable design finished by development, and common product does not have appropriate structure to address the above problem, and this obviously is the problem that the anxious desire of relevant dealer solves.

Because the defective that above-mentioned existing active organic electroluminescent display panel and manufacture method thereof exist, the inventor is based on being engaged in this type of product design manufacturing abundant for many years practical experience and professional knowledge, and the utilization of cooperation scientific principle, actively studied innovation, in the hope of the active organic electroluminescent display panel and the manufacture method thereof of founding a kind of new structure, can improve general existing active organic electroluminescent display panel and manufacture method thereof, make it have more practicality.Through constantly research, design, and after studying sample and improvement repeatedly, create the present invention who has practical value finally.

Summary of the invention

The objective of the invention is to, overcome the defective that existing active organic electroluminescent display panel and manufacture method thereof exist, and provide a kind of new active organic electroluminescent display panel and manufacture method thereof, technical problem to be solved is to make it that a kind of active organic electroluminescent display panel is provided, the briliancy difference that is produced with the luminous efficiency difference of improving various organic materials, and then improve the display effect of panel.

In addition, a further object of the present invention provides a kind of manufacture method of active organic electroluminescent display panel, the briliancy difference that is produced with the luminous efficiency difference of improving various organic materials, and then improve the display effect of panel, thus be suitable for practicality more.

The object of the invention to solve the technical problems realizes by the following technical solutions.According to a kind of active organic electroluminescent display panel that the present invention proposes, it comprises: an image element structure layer is configured on the substrate, and this image element structure layer comprises an active cell array and an anode pattern layer; One organic luminous layer covers on this anode pattern layer at least, and wherein, this organic luminous layer comprises at least one first organic light emission pattern, at least one second organic light emission pattern and at least one the 3rd organic light emission pattern; An and negative electrode patterned layer, be configured on this organic luminous layer, wherein this negative electrode patterned layer comprises that correspondence is configured in one first negative electrode pattern, correspondence on this first organic light emission pattern and is configured in one second negative electrode pattern and corresponding one the 3rd negative electrode pattern that is configured on the 3rd organic light emission pattern on this second organic light emission pattern, and this first, second and the 3rd negative electrode pattern do not link together each other.

The object of the invention to solve the technical problems also can be applied to the following technical measures to achieve further.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, wherein said first, second and the 3rd negative electrode pattern are to be electrically connected to corresponding operating voltage respectively.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, it more comprises most bar negative electrode distributions, those negative electrode distributions be respectively with this first, second and the 3rd negative electrode pattern electrically connect.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, it more comprises a spaced walls (rib) structure, be configured in the top of this active cell array and this anode pattern layer so that this first, second and the 3rd organic light emission pattern separate.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, wherein said spacer structures more comprise with this first, second and the 3rd negative electrode pattern separate.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, the upper surface width of wherein said spacer structures are the width greater than its lower surface.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, wherein said first, second and the 3rd organic light emission pattern are to be respectively red light-emitting material, green light luminescent material and blue light emitting material.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, wherein said active cell array comprises an electric crystal array film.

The object of the invention to solve the technical problems realizes by the following technical solutions.The manufacture method of a kind of active organic electroluminescent display panel that proposes according to the present invention, it comprises following processing step: form an image element structure layer on a substrate, comprise and form an active cell array and an anode pattern layer in regular turn and form this image element structure layer; Form an organic luminous layer above this substrate, cover at least on this anode pattern layer, wherein this organic luminous layer comprises at least one first organic light emission pattern, at least one second organic light emission pattern and at least one the 3rd organic light emission pattern; And on this organic luminous layer, form a negative electrode patterned layer, wherein this negative electrode patterned layer comprises that correspondence is configured in one first negative electrode pattern, correspondence on this first organic light emission pattern and is configured in one second negative electrode pattern and corresponding one the 3rd negative electrode pattern that is configured on the 3rd organic light emission pattern on this second organic light emission pattern, and this first, second and the 3rd negative electrode pattern do not link together each other.

The object of the invention to solve the technical problems also can be applied to the following technical measures to achieve further.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, after forming this active cell array and this anode pattern layer, more comprise and form most bar negative electrode distributions, and form this first, second and the 3rd negative electrode pattern after, those negative electrode distributions can be respectively with this first, second and the 3rd negative electrode pattern electrically connect.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, wherein said first, second and the 3rd negative electrode pattern are to be electrically connected to corresponding operating voltage respectively.

Aforesaid active organic electroluminescent display panel and manufacture method thereof after forming those negative electrode distributions, more comprise: form a spacer structures above this substrate, wherein this spacer structures is that the position is above those negative electrode distributions; Form first, second and the 3rd contact openings in this spacer structures, it is the confluce that is positioned at this negative electrode patterned layer and this spacer structures; Form this organic luminous layer; And on this organic luminous layer, form this negative electrode patterned layer, wherein this first, second and the 3rd negative electrode pattern be respectively by this first, second and the 3rd contact openings and electrically connecting with corresponding this negative electrode distribution.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, the method that forms this negative electrode patterned layer comprises carries out a cathodic deposition processing procedure, and in this cathodic deposition processing procedure this first, second and the 3rd negative electrode pattern can be separated by this spacer structures.

Aforesaid active organic electroluminescent display panel and manufacture method thereof before forming this organic luminous layer, more are included in and form a spacer structures on this active cell array and this anode pattern layer.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, the method that forms this organic luminous layer comprise carries out an ink-jet processing procedure.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, the method that forms this negative electrode patterned layer comprises carries out a cathodic deposition processing procedure, and in this cathodic deposition processing procedure this first, second and the 3rd negative electrode pattern can be separated by this spacer structures.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, before forming this organic luminous layer, the top that more is included in this substrate forms most bar negative electrode distributions, and behind this organic luminous layer of formation, more comprise: this organic luminous layer of patterning, with respectively this first, second and the 3rd organic light emission pattern in form first, second and the 3rd contact openings; And on this organic luminous layer, form this negative electrode patterned layer, and this first, second and the 3rd negative electrode pattern be respectively by this first, second and the 3rd contact openings and electrically connecting with corresponding this negative electrode distribution.

Aforesaid active organic electroluminescent display panel and manufacture method thereof after forming those negative electrode distributions, more are included in and form a spacer structures on this active cell array and this anode pattern layer.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, the method that forms this organic luminous layer comprise carries out an ink-jet processing procedure.

Aforesaid active organic electroluminescent display panel and manufacture method thereof, the method that forms this negative electrode patterned layer comprises carries out a cathodic deposition processing procedure, and in this cathodic deposition processing procedure this first, second and the 3rd negative electrode pattern can be separated by this spacer structures.

The present invention compared with prior art has tangible advantage and beneficial effect.By above technical scheme as can be known, in order to reach aforementioned goal of the invention, major technique of the present invention thes contents are as follows:

The present invention proposes a kind of active organic electroluminescent display panel, it comprises a substrate, an image element structure layer, an organic luminous layer and a negative electrode patterned layer, wherein the image element structure layer is configured on the substrate, and this image element structure layer comprises an active cell array (active device array) and an anode pattern layer (anode pattern layer).In addition, organic luminous layer is to cover at least on the anode pattern layer, and wherein organic luminous layer comprises at least one first organic light emission pattern, at least one second organic light emission pattern and at least one the 3rd organic light emission pattern.In addition, the negative electrode patterned layer is to be configured on the organic luminous layer, wherein the negative electrode patterned layer comprises that correspondence is configured in one first negative electrode pattern, correspondence on the first organic light emission pattern and is configured in one second negative electrode pattern and corresponding one the 3rd negative electrode pattern that is configured on the 3rd organic light emission pattern on the second organic light emission pattern, and first, second and the 3rd negative electrode pattern do not link together each other.

The present invention proposes a kind of manufacture method of active organic electroluminescent display panel, and it comprises several steps.At first, on a substrate, form an image element structure layer, comprise and form an active cell array and an anode pattern layer in regular turn and form this image element structure layer.Then, form an organic luminous layer above substrate, it covers the anode pattern layer at least, and wherein organic luminous layer comprises at least one first organic light emission pattern, at least one second organic light emission pattern and at least one the 3rd organic light emission pattern.Then, on organic luminous layer, form a negative electrode patterned layer, wherein the negative electrode patterned layer comprises that correspondence is configured in one first negative electrode pattern, correspondence on the first organic light emission pattern and is configured in one second negative electrode pattern and corresponding one the 3rd negative electrode pattern that is configured on the 3rd organic light emission pattern on the second organic light emission pattern, and first, second and the 3rd negative electrode pattern do not link together each other.

Based on above-mentioned, active organic electroluminescent display panel of the present invention adopts the patterning cathode layer, so that provide different operating voltages at different luminous organic materials, and to improve the display quality of panel.

Via as can be known above-mentioned, a kind of active organic electroluminescent display panel of the present invention, it comprises a substrate, an image element structure layer, an organic luminous layer and a negative electrode patterned layer, and wherein the image element structure layer is configured on the substrate, and the image element structure layer comprises an active cell array and an anode pattern layer.Organic luminous layer is to cover at least on the anode pattern layer, and wherein organic luminous layer comprises at least one first organic light emission pattern, at least one second organic light emission pattern and at least one the 3rd organic light emission pattern.The negative electrode patterned layer is to be configured on the organic luminous layer, wherein the negative electrode patterned layer comprises that correspondence is configured in one first negative electrode pattern, correspondence on the first organic light emission pattern and is configured in one second negative electrode pattern and corresponding one the 3rd negative electrode pattern that is configured on the 3rd organic light emission pattern on the second organic light emission pattern, and first, second and the 3rd negative electrode pattern do not link together each other.

By technique scheme, active organic electroluminescent display panel of the present invention and manufacture method thereof have following advantage at least:

1, active organic electroluminescent display panel of the present invention adopts the patterning cathode layer, import different operating voltages so that be directed to the luminous efficiency of various organic materials, and then make active organic electroluminescent display panel have briliancy uniformly.

2, the present invention is electrically connected to the driving wafer with the patterning cathode layer by the negative electrode distribution, so the operating voltage that the negative electrode distribution is imported can be adjusted by driving wafer.

3, because the decay efficient of various organic materials and inequality, therefore when user's use after a while and Show Color when morphing, the user just can carry out the fine setting of the operating voltage of each coloured light according to display effect, to reach better display quality.

In sum, the active organic electroluminescent display panel of special construction of the present invention and manufacture method thereof, a kind of active organic electroluminescent display panel is provided, the briliancy difference that is produced with the luminous efficiency difference of improving various organic materials, and can improve the display effect of panel.In addition, the invention provides a kind of manufacture method of active organic electroluminescent display panel, the briliancy difference that is produced with the luminous efficiency difference of improving various organic materials, and can improve the display effect of panel.It has above-mentioned many advantages and practical value, and in like product and manufacture method, do not see have similar structural design and method to publish or use and really genus innovation, no matter it all has bigger improvement on product structure, manufacture method or function, have large improvement technically, and produced handy and practical effect, and more existing active organic electroluminescent display panel and manufacture method thereof have the multinomial effect of enhancement, thereby being suitable for practicality more, really is a new and innovative, progressive, practical new design.

Above-mentioned explanation only is the general introduction of technical solution of the present invention, for can clearer understanding technological means of the present invention, and can be implemented according to the content of specification, and for above-mentioned and other purposes, feature and advantage of the present invention can be become apparent, below especially exemplified by a plurality of preferred embodiments, and conjunction with figs., be described in detail as follows.

Description of drawings

Figure 1A is the structural representation according to the active organic electroluminescent display panel of the present invention's first preferred embodiment.

Figure 1B is the active organic electroluminescent display panel part section structural representation according to the present invention's first preferred embodiment, and wherein, the cross-section structure shown in Figure 1B is respectively along D-D ', E-E ' and the F-F ' hatching of Figure 1A.

Fig. 2 A is the structural representation according to the active organic electroluminescent display panel of the present invention's first preferred embodiment.

Fig. 2 B is the active organic electroluminescent display panel part section structural representation according to the present invention's first preferred embodiment, and wherein the cross-section structure shown in Fig. 2 B is respectively along D-D ', E-E ' and the F-F ' hatching of Fig. 2 A.

Fig. 3 is the circuit diagram of active organic electroluminescent display panel of the present invention.

100,200,300: active organic electroluminescent display panel

110: substrate 120: the image element structure layer

122: active cell array 124: the anode pattern layer

130,230: organic luminous layer 132,232: the first organic light emission patterns

134,234: the second organic light emission patterns 136,236: the three organic light emission patterns

140: 142: the first negative electrode patterns of negative electrode patterned layer

146: the three negative electrode patterns of 144: the second negative electrode patterns

150: negative electrode distribution 152,332: the first negative electrode distributions

154,334: the second negative electrode distributions 156,336: the three negative electrode distributions

160,260: 162: the first spaced walls of spacer structures

164: the second spaced walls 160a, 232a: first contact openings

160b, 234a: the second contact openings 160c, 236a: the 3rd contact openings

310: 322: the first organic electroluminescent elements of active cell array circuit

326: the three organic electroluminescent elements of 324: the second organic electroluminescent elements

D-D ', E-E ', F-F ': hatching

Embodiment

Reach technological means and the effect that predetermined goal of the invention is taked for further setting forth the present invention, below in conjunction with accompanying drawing and preferred embodiment, to active organic electroluminescent display panel and its embodiment of manufacture method, structure, manufacture method, step, feature and the effect thereof that foundation the present invention proposes, describe in detail as after.

The present invention adopts the patterning cathode layer, so that provide different negative electrode operating voltages with the difference of briliancy, and then make active organic electroluminescent display panel have preferable display effect at material behavior, the luminous efficiency of various organic material layers.

[first embodiment]

See also shown in Figure 1A and Figure 1B, Figure 1A is the structural representation according to the active organic electroluminescent display panel of the present invention's first preferred embodiment.Figure 1B is the part section structural representation according to the active organic electroluminescent display panel of the present invention's first preferred embodiment, and wherein the cross-section structure shown in Figure 1B is respectively along D-D ', E-E ' and the F-F ' hatching of Figure 1A.Please consult Figure 1A and Figure 1B simultaneously, active organic electroluminescent display panel 100 comprises a substrate 110, an image element structure layer 120, an organic luminous layer 130 and a negative electrode patterned layer 140, and wherein image element structure layer 120 is configured on the substrate 110.In addition, image element structure layer 120 for example comprises an active cell array 122 and an anode pattern layer 124, wherein active cell array 122 for example is electric crystal array film (thin filmtransistor array), and the material of anode pattern layer 124 for example is indium tin oxide (IndiumTin Oxide, ITO) or indium-zinc oxide (Indium Zinc Oxide, IZO).

Organic luminous layer 130 is to cover at least on the anode pattern layer 124, and wherein, organic luminous layer 130 comprises at least one first organic light emission pattern 132, at least one second organic light emission pattern 134 and at least one the 3rd organic light emission pattern 136.In addition, negative electrode patterned layer 140 is to be configured on the organic luminous layer 130, wherein, negative electrode patterned layer 140 comprises that correspondence is configured in one first negative electrode pattern 142, correspondence on the first organic light emission pattern 132 and is configured in one second negative electrode pattern 144 and corresponding one the 3rd negative electrode pattern 146 that is configured on the 3rd organic light emission pattern 136 on the second organic light emission pattern 134, and the first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146 do not link together each other, shown in Figure 1A.

From the above as can be known, active organic electroluminescent display panel 100 more optionally comprises many negative electrode distributions 150 and a spacer structures 160, wherein negative electrode distribution 150 comprises the first negative electrode distribution 152, the second negative electrode distribution 154 and the 3rd negative electrode distribution 156, it is to electrically connect with the first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146 respectively, shown in Figure 1B.In addition, spacer structures 160 is the tops that are configured in active cell array 122 and anode pattern layer 124, so that the first organic light emission pattern 132, the second organic light emission pattern 134 and the 3rd organic light emission pattern 136 separate, and spacer structures 160 more comprises the first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146 is separated.

It should be noted that, spacer structures 160 comprises first spaced walls 162 and second spaced walls 164, wherein first spaced walls 162 is staggered with second spaced walls 164, and more comprise in the spacer structures 160 and be formed with first contact openings (contact opening) 160a, the second contact openings 160b and the 3rd contact openings 160c, it is to lay respectively at the first negative electrode pattern 142, the confluce of the second negative electrode pattern 144 and the 3rd negative electrode pattern 146 and second spaced walls 164, so first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146 can be respectively by the first contact openings 160a, the second contact openings 160b and the 3rd contact openings 160c electrically connect the first negative electrode distribution 152 respectively, the second negative electrode distribution 154 and the 3rd negative electrode distribution 156 are so that the first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146 are electrically connected to corresponding operating voltage respectively.In addition, the first organic light emission pattern 132, the second organic light emission pattern 134 and the 3rd organic light emission pattern 136 for example are respectively red light-emitting material, green light luminescent material and blue light emitting material.

Because the first organic light emission pattern 132, the preferable operating voltage of the second organic light emission pattern 134 and the 3rd organic light emission pattern 136 is all inequality, so first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146 can be at the first organic light emission patterns 132, the second organic light emission pattern 134 and the 3rd organic light emission pattern 136 provide different operating voltages, to reduce the luminous efficiency difference that material behavior was caused and the briliancy difference in attenuation of various organic materials, so that active organic electroluminescent display panel 100 can present briliancy uniformly.In addition, negative electrode distribution 150 for example is the driving wafer (not shown) that is electrically connected on the periphery circuit region, therefore only need at the pin that drives increase negative electrode distribution 150 on the wafer, and drive the operating voltage that wafer just can be controlled the first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146 respectively.What deserves to be mentioned is, the decay efficient of various organic materials is also inequality, therefore working as active organic electroluminescent display panel 100 of the present invention uses after a period of time, the user can be at active organic electroluminescent display panel 100 demonstration situations, with the operating voltage of adjustment organic material, and then reach preferable display effect.For the manufacture method of active organic electroluminescent display panel 100, its describe in detail as after.

Please continue to consult shown in Figure 1A and Figure 1B, the manufacture method of active organic electroluminescent display panel 100 comprises several steps.At first, on a substrate 110, form an active cell array 122 and an anode pattern layer 124 in regular turn, and active cell array 122 is to constitute an image element structure layer 120 with anode pattern layer 124.Then, above substrate 110, form many negative electrode distributions 150, the method that wherein forms negative electrode distribution 150 for example is to adopt wire jumper processing procedure (wire jumper process) or increase other fabrication steps, in order to avoid negative electrode distribution 150 is electrically connected to active cell array 122 or anode pattern layer 124.Then, above substrate 110, form a spacer structures 160, and the method that forms spacer structures 160 for example is to form a photoresist layer (not shown) earlier, carry out exposure manufacture process (exposure process) and developing manufacture process (development process) for this photoresist layer again, to form a plurality of first spaced walls 162 and a plurality of second spaced walls 164, and form one first contact openings 160a, the second contact openings 160b and the 3rd contact openings 160c, it lays respectively at the first negative electrode distribution 152, the confluce of the second negative electrode distribution 154 and the 3rd negative electrode distribution 156 and second spaced walls 164 is shown in Figure 1A.It should be noted that the first contact openings 160a, the second contact openings 160b and the 3rd contact openings 160c are not limited to form this moment, it also can just form after follow-up formation organic material layer 130.

It should be noted that thick that the thickness of first spaced walls 162 of spacer structures 160 must be enough, so that follow-uply when forming organic luminous layer 130 and negative electrode patterned layer 140, each layer pattern is separated.Preferably, the upper surface width W 1 of first spaced walls 162 of spacer structures 160 is the width W 2 greater than its lower surface.In addition, the first contact openings 160a, the second contact openings 160b and the 3rd contact openings 160c are the part surfaces that exposes the first negative electrode distribution 152, the second negative electrode distribution 154 and the 3rd negative electrode distribution 156 respectively.After forming spacer structures 160, above substrate 110, form an organic luminous layer 130, it is to cover anode pattern layer 124 at least, and wherein organic luminous layer 130 comprises at least one first organic light emission pattern 132, at least one second organic light emission pattern 134 and at least one the 3rd organic light emission pattern 136.Especially, spacer structures 160 is to separate the first organic light emission pattern 132, the second organic light emission pattern 134 and the 3rd organic light emission pattern 136.The method that forms organic luminous layer 130 can utilize known any method to form.In one embodiment, if active organic electroluminescent display panel 100 is used for micromolecule organic electro-luminescent display (SmallMolecule OELD, SM-OELD), the method that then forms organic luminous layer 130 for example comprises evaporation processing procedure (evaporation process).In another embodiment, if active organic electroluminescent display panel 100 is used for macromolecule electro-exciting light-emitting display (Polymer Electro-LuminescentDevice, PELD), the method that then forms organic luminous layer 130 for example comprises rotary coating process (spincoating process) or ink-jet processing procedure (ink jet process).

After forming organic luminous layer 130, carry out a cathodic deposition (cathode depositedprocess) processing procedure, so that on substrate 110, form a negative electrode patterned layer 140.At this, because the thickness of first spaced walls 162 of spacer structures 160 is enough thick, therefore in the cathodic deposition processing procedure, first spaced walls 162 that negative electrode patterned layer 140 can be spaced apart wall construction 160 is separated out the first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146.In addition, the first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146 are that correspondence is configured on the first organic light emission pattern 132, the second organic light emission pattern 134 and the 3rd organic light emission pattern 136 respectively.It should be noted that, after the first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146, it can electrically connect with the first negative electrode distribution 152, the second negative electrode distribution 154 and the 3rd negative electrode distribution 156 by the first contact openings 160a, the second contact openings 160b and the 3rd contact openings 160c respectively, so that the first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146 are electrically connected to corresponding operating voltage respectively.

[second embodiment]

See also shown in Fig. 2 A and Fig. 2 B, Fig. 2 A is the structural representation according to the active organic electroluminescent display panel of the present invention's second preferred embodiment.Fig. 2 B is the part section structural representation according to the active organic electroluminescent display panel of the present invention's second preferred embodiment, and wherein the cross-section structure shown in Fig. 2 B is respectively along D-D ', E-E ' and the F-F ' hatching of Fig. 2 A.If the identical person with first embodiment of the label of second embodiment, it is to represent that specified in a second embodiment member is the member in specified in first embodiment of duplicating, and does not repeat them here.

See also shown in Fig. 2 A and Fig. 2 B, second embodiment is similar to first embodiment, its difference is: the profile of the first organic light emission pattern 132, the second organic light emission pattern 134 and the 3rd organic light emission pattern 136 of first embodiment is block (shown in Figure 1A), and the profile of the first organic light emission pattern 232, the second organic light emission pattern 234 and the 3rd organic light emission pattern 236 of second embodiment is strip (shown in Fig. 2 A).In addition, be to be formed with the first contact openings 232a, the second contact openings 234a and the 3rd contact openings 236a respectively in the first organic light emission pattern 232, the second organic light emission pattern 234 and the 3rd organic light emission pattern 236, it is positioned at the confluce of the first negative electrode distribution 152, the second negative electrode distribution 154 and the 3rd negative electrode distribution 156 and the first organic light emission pattern 232, the second organic light emission pattern 234 and the 3rd organic light emission pattern 236.And the first contact openings 232a, the second contact openings 234a and the 3rd contact openings 236a are the surfaces that exposes the first negative electrode distribution 152, the second negative electrode distribution 154 and the 3rd negative electrode distribution 156 respectively, shown in Fig. 2 B.

From the above, the spacer structures 260 of second embodiment is a strip, and spacer structures 260 is not only separated the first organic light emission pattern 232, the second organic light emission pattern 234 and the 3rd organic light emission pattern 236, more separates the first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146.It should be noted that, the first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146 can be respectively be electrically connected to different operating voltage according to the material behavior of the first organic light emission pattern 232, the second organic light emission pattern 234 and the 3rd organic light emission pattern 236, to improve the display quality of active organic electroluminescent display panel 200.

In addition, the manufacture method of active organic electroluminescent display panel 200, also similar to the described method of first embodiment.Difference is, please continue to consult shown in Fig. 2 A and Fig. 2 B, after forming image element structure layer 120 and negative electrode distribution 150, above substrate 110, form a spacer structures 260, and the profile of spacer structures 260 for example is a strip, and its thickness must be enough thick, so that follow-uply when forming organic luminous layer 230 and negative electrode patterned layer 140 each layer pattern is separated.In a preferred embodiment, the upper surface width W 3 of spacer structures 260 is the width W 4 greater than its lower surface.Afterwards, above substrate 110, form an organic luminous layer 230, it is to cover anode pattern layer 124 at least, and wherein organic luminous layer 230 comprises at least one first organic light emission pattern 232, at least one second organic light emission pattern 234 and at least one the 3rd organic light emission pattern 136.In addition, spacer structures 260 is to separate the first organic light emission pattern 232, the second organic light emission pattern 234 and the 3rd organic light emission pattern 236.

After forming organic luminous layer 230, carry out a patterning process for organic luminous layer 230, in the first organic light emission pattern 232, the second organic light emission pattern 234 and the 3rd organic light emission pattern 236, to form one first contact openings 232a, the second contact openings 234a and the 3rd contact openings 236a respectively, it is the part surface that exposes the first negative electrode distribution 152, the second negative electrode distribution 154 and the 3rd negative electrode distribution 156 respectively, shown in Fig. 2 B.Then, on substrate 110, form a negative electrode patterned layer 140.At this, because the thickness of spacer structures 260 is enough thick, therefore in the cathodic deposition processing procedure, negative electrode patterned layer 140 can be spaced apart wall construction 260 and be separated out the first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146, and the first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146 are respectively by the first contact openings 232a, the second contact openings 234a and the 3rd contact openings 236a and the first negative electrode distribution 152, the second negative electrode distribution 154 and 156 electric connections of the 3rd negative electrode distribution.

In the present invention, the method for separating negative electrode patterned layer 140 does not limit and must reach by spacer structures 260 or 160, and other can make the method for cathode layer patterning all can use.In addition, spacer structures 260 or 160 section also are not limited to the pattern that Fig. 2 A is illustrated, so long as the pattern that can in the cathodic deposition processing procedure negative electrode pattern be separated all can.In addition, negative electrode distribution 150 does not limit and is configured between image element structure layer 120 and the spacer structures 260, also configurable in other appropriate locations, so that the first negative electrode pattern 142, the second negative electrode pattern 144 and the 3rd negative electrode pattern 146 are electrically connected to corresponding operating voltage respectively.

See also shown in Figure 3ly, be the circuit diagram of active organic electroluminescent display panel of the present invention, it is the equivalent circuit diagram of Figure 1A and Figure 1B.Active organic electroluminescent display panel circuit 300 comprises an active cell array 310, a plurality of first organic electroluminescent element 322, a plurality of second organic electroluminescent element 324, a plurality of the 3rd organic electroluminescent element 326, one first negative electrode distribution 332, one second negative electrode distribution 334 and one the 3rd negative electrode distribution 336.First organic electroluminescent element 322, second organic electroluminescent element 324 and the 3rd organic electroluminescent element 326 are to be electrically connected to the first negative electrode distribution 332, the second negative electrode distribution 334 and the 3rd negative electrode distribution 336 respectively.It should be noted that the first negative electrode distribution 332, the second negative electrode distribution 334 and the 3rd negative electrode distribution 336 be provide different respectively operating voltage to first organic electroluminescent element 322, second organic electroluminescent element 324 and the 3rd organic electroluminescent element 326.

The above, it only is preferred embodiment of the present invention, be not that the present invention is done any pro forma restriction, though the present invention discloses as above with preferred embodiment, yet be not in order to limit the present invention, any those skilled in the art, in not breaking away from the technical solution of the present invention scope, when the method that can utilize above-mentioned announcement and technology contents are made a little change or be modified to the equivalent embodiment of equivalent variations, but every content that does not break away from technical solution of the present invention, according to technical spirit of the present invention to any simple modification that above embodiment did, equivalent variations and modification all still belong in the scope of technical solution of the present invention.

Claims (20)

1, a kind of active organic electroluminescent display panel is characterized in that it comprises:

One image element structure layer is configured on the substrate, and this image element structure layer comprises an active cell array and an anode pattern layer;

One organic luminous layer covers on this anode pattern layer at least, and wherein this organic luminous layer comprises at least one first organic light emission pattern, at least one second organic light emission pattern and at least one the 3rd organic light emission pattern; And

One negative electrode patterned layer, be configured on this organic luminous layer, wherein this negative electrode patterned layer comprises that correspondence is configured in one first negative electrode pattern, correspondence on this first organic light emission pattern and is configured in one second negative electrode pattern and corresponding one the 3rd negative electrode pattern that is configured on the 3rd organic light emission pattern on this second organic light emission pattern, and this first, second and the 3rd negative electrode pattern do not link together each other.

2, active organic electroluminescent display panel according to claim 1 is characterized in that wherein said first, second and the 3rd negative electrode pattern are to be electrically connected to corresponding operating voltage respectively.

3, active organic electroluminescent display panel according to claim 1 is characterized in that it more comprises most bar negative electrode distributions, those negative electrode distributions be respectively with this first, second and the 3rd negative electrode pattern electrically connect.

4, active organic electroluminescent display panel according to claim 1, it is characterized in that it more comprises a spaced walls (rib) structure, be configured in the top of this active cell array and this anode pattern layer so that this first, second and the 3rd organic light emission pattern separate.

5, active organic electroluminescent display panel according to claim 4, it is characterized in that wherein said spacer structures more comprise with this first, second and the 3rd negative electrode pattern separate.

6, active organic electroluminescent display panel according to claim 4, the upper surface width that it is characterized in that wherein said spacer structures are the width greater than its lower surface.

7, active organic electroluminescent display panel according to claim 1 is characterized in that wherein said first, second and the 3rd organic light emission pattern are to be respectively red light-emitting material, green light luminescent material and blue light emitting material.

8, active organic electroluminescent display panel according to claim 1 is characterized in that wherein said active cell array comprises an electric crystal array film.

9, a kind of manufacture method of active organic electroluminescent display panel is characterized in that it comprises following processing step:

On a substrate, form an image element structure layer, comprise and form an active cell array and an anode pattern layer in regular turn and form this image element structure layer;

Form an organic luminous layer above this substrate, cover at least on this anode pattern layer, wherein this organic luminous layer comprises at least one first organic light emission pattern, at least one second organic light emission pattern and at least one the 3rd organic light emission pattern; And

On this organic luminous layer, form a negative electrode patterned layer, wherein this negative electrode patterned layer comprises that correspondence is configured in one first negative electrode pattern, correspondence on this first organic light emission pattern and is configured in one second negative electrode pattern and corresponding one the 3rd negative electrode pattern that is configured on the 3rd organic light emission pattern on this second organic light emission pattern, and this first, second and the 3rd negative electrode pattern do not link together each other.

10, the manufacture method of active organic electroluminescent display panel according to claim 9, it is characterized in that more comprising and form majority after forming this active cell array and this anode pattern layer, bar negative electrode distribution, and form this first, second and the 3rd negative electrode pattern after, those negative electrode distributions can be respectively with this first, second and the 3rd negative electrode pattern electrically connect.

11, the manufacture method of active organic electroluminescent display panel according to claim 10 is characterized in that wherein said first, second and the 3rd negative electrode pattern are to be electrically connected to corresponding operating voltage respectively.

12, the manufacture method of active organic electroluminescent display panel according to claim 10 is characterized in that more comprising after forming those negative electrode distributions:

Form a spacer structures above this substrate, wherein this spacer structures is to be positioned at those negative electrode distribution tops;

Form first, second and the 3rd contact openings in this spacer structures, it is the confluce that is positioned at this negative electrode patterned layer and this spacer structures;

Form this organic luminous layer; And

On this organic luminous layer, form this negative electrode patterned layer, wherein this first, second and the 3rd negative electrode pattern be respectively by this first, second and the 3rd contact openings and electrically connecting with corresponding this negative electrode distribution.

13, the manufacture method of active organic electroluminescent display panel according to claim 12, the method that it is characterized in that forming this negative electrode patterned layer comprises carries out a cathodic deposition processing procedure, and in this cathodic deposition processing procedure this first, second and the 3rd negative electrode pattern can be separated by this spacer structures.

14, the manufacture method of active organic electroluminescent display panel according to claim 9 is characterized in that before forming this organic luminous layer, more was included in and formed a spacer structures on this active cell array and this anode pattern layer.

15, the manufacture method of active organic electroluminescent display panel according to claim 14, the method that it is characterized in that forming this organic luminous layer comprises carries out an ink-jet processing procedure.

16, the manufacture method of active organic electroluminescent display panel according to claim 14, the method that it is characterized in that forming this negative electrode patterned layer comprises carries out a cathodic deposition processing procedure, and in this cathodic deposition processing procedure this first, second and the 3rd negative electrode pattern can be separated by this spacer structures.

17, the manufacture method of active organic electroluminescent display panel according to claim 9, it is characterized in that before forming this organic luminous layer, the top that more is included in this substrate forms most bar negative electrode distributions, and after forming this organic luminous layer, more comprises:

This organic luminous layer of patterning, with respectively this first, second and the 3rd organic light emission pattern in form first, second and the 3rd contact openings; And

On this organic luminous layer, form this negative electrode patterned layer, and this first, second and the 3rd negative electrode pattern be respectively by this first, second and the 3rd contact openings and electrically connecting with corresponding this negative electrode distribution.

18, the manufacture method of active organic electroluminescent display panel according to claim 17 is characterized in that after forming those negative electrode distributions, more is included in and forms a spacer structures on this active cell array and this anode pattern layer.

19, the manufacture method of active organic electroluminescent display panel according to claim 17, the method that it is characterized in that forming this organic luminous layer comprises carries out an ink-jet processing procedure.

20, the manufacture method of active organic electroluminescent display panel according to claim 17, the method that it is characterized in that forming this negative electrode patterned layer comprises carries out a cathodic deposition processing procedure, and in this cathodic deposition processing procedure this first, second and the 3rd negative electrode pattern can be separated by this spacer structures.

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