CN106935735B - Production method, display base plate and the display device of display base plate - Google Patents

Abstract

The invention discloses a kind of production method of display base plate, display base plate and display devices, belong to field of display technology.Method includes providing underlay substrate；The first pixel defining layer is formed, underlay substrate is divided into multiple pixel units by pixel defining layer；Form the first light emitting element layer；Sequentially form the second light emitting element layer of multilayer, further include forming the first light emitting element layer and forming at least step carried out between the second light emitting element layer of the last layer: forming the second pixel defining layer, second pixel defining layer is fallen in the first pixel defining layer in the orthographic projection of the first pixel defining layer, and the surfacial pattern of the separate underlay substrate of the second pixel defining layer is consistent with the surfacial pattern of separate underlay substrate of the first pixel defining layer；In the same pixel unit, the first light emitting element layer and multiple second light emitting element layers are formed as a part of the same Organic Light Emitting Diode.The production method of display base plate of the invention can be effectively reduced the risk of ink-jet printing media overflow.

Description

Production method, display base plate and the display device of display base plate

Technical field

The present invention relates to field of display technology, and in particular to a kind of production method of display base plate, a kind of display base plate with And a kind of display device including the display base plate.

Background technique

In general, organic electroluminescence device (OrganicLightEmittingDiode, OLED) is relative to liquid crystal display Device (Liquid Crystal Display, LCD) has that self-luminous, reaction is fast, visual angle is wide, brightness is high, color is gorgeous, frivolous etc. excellent Point, it is considered to be next-generation display technology.

Organic electroluminescence device (OLED) membrane deposition method mainly has vacuum evaporation and two kinds of solution process.Wherein, Vacuum evaporation is suitable for small organic molecule, forms a film uniformly good, technology relative maturity but equipment investment is big, stock utilization It is low, large size product exposure mask aligning accuracy is low.Solution process mainly includes spin coating, inkjet printing, nozzle coating method etc., is suitable for Polymer material and soluble small molecule, feature equipment cost is low, and it is prominent to produce upper advantage in extensive, large scale.Especially Inkjet printing technology, can by solution accurately ink-jet into pixel region, formed organic film.

But in traditional inkjet printing technology, there can be ink droplet when carrying out inkjet printing and not fall vertically, print to Above pixel defining layer, the pixel defining layer of lyophoby is polluted, its lyophoby ability is reduced.Secondly, ink can be climbed in pixel It onto pixel defining layer, can also increase the risk of ink overflow, ink is caused to overflow in adjacent pixel region.

Therefore, it is urgently to be resolved as this field how to design a kind of production method that can effectively prevent ink overflow Technical problem.

Summary of the invention

The present invention is directed at least solve one of the technical problems existing in the prior art, a kind of system of display base plate is proposed Make method, a kind of display base plate and a kind of display device including the display base plate.

To achieve the goals above, the first aspect of the present invention provides a kind of production method of display base plate, the side Method includes:

Underlay substrate is provided；

The first pixel defining layer is formed, the underlay substrate is divided into multiple pixel units by the pixel defining layer；

Form the first light emitting element layer；

Sequentially form the second light emitting element layer of multilayer, wherein the method also includes forming first light-emitting component At least step carried out between second light emitting element layer described in layer and formation the last layer:

The second pixel defining layer is formed, second pixel defining layer is fallen in the orthographic projection of first pixel defining layer In first pixel defining layer, and the surfacial pattern and described the far from the underlay substrate of second pixel defining layer The surfacial pattern far from the underlay substrate of one pixel defining layer is consistent；

Wherein, in the same pixel unit, first light emitting element layer and multiple second light emitting element layers Be formed as a part of the same Organic Light Emitting Diode.

Preferably, first light emitting element layer is hole injection layer, and the second light emitting element layer described in multilayer respectively includes Hole transmission layer and luminescent layer, described the step of sequentially forming the second light emitting element layer of multilayer include:

The second pixel defining layer is formed on the surface away from the underlay substrate of first pixel defining layer；

Using hole mobile material as ink-jet printing media, printing forms hole transmission layer；

Third pixel defining layer is formed on the surface away from first pixel defining layer of second pixel defining layer；

Using luminescent material as ink-jet printing media, printing forms luminescent layer.

Preferably, second pixel defining layer and/or the third pixel defining layer with a thickness of 5-100nm.

Preferably, second pixel defining layer and/or the third pixel defining layer with a thickness of 10-50nm.

Preferably, the surface away from the underlay substrate in first pixel defining layer forms the second pixel circle Given layer, and third pixel defining layer is formed on the surface away from first pixel defining layer of second pixel defining layer The step of include:

Second pixel defining layer is transferred to the surface of the first pixel defining layer using heat-transferring method；

Third pixel defining layer is transferred to the surface of the second pixel defining layer using heat-transferring method.

Preferably, the material of second pixel defining layer and/or the third pixel defining layer includes that fluorination polyamides is sub- Amine or silicone materials.

The second aspect of the present invention provides a kind of display base plate, and the display base plate includes underlay substrate, is formed in institute The first pixel defining layer on underlay substrate is stated, the underlay substrate is divided into multiple pixel units by the pixel defining layer；

The first light emitting element layer being formed on the underlay substrate；

The second light emitting element layer of multilayer being sequentially formed above first light emitting element layer；

Wherein, second is also formed between the second light emitting element layer described in first light emitting element layer and the last layer Pixel defining layer, second pixel defining layer fall in first pixel in the orthographic projection of first pixel defining layer and define In layer, and the surfacial pattern far from the underlay substrate of second pixel defining layer is remote with first pixel defining layer Surfacial pattern from the underlay substrate is consistent；

Wherein, in the same pixel unit, first light emitting element layer and multiple second light emitting element layers Be formed as a part of the same Organic Light Emitting Diode.

Preferably, first light emitting element layer is hole injection layer, and the second light emitting element layer described in multilayer respectively includes Hole transmission layer and luminescent layer, wherein the hole transmission layer is between the hole injection layer and the luminescent layer.

Preferably, second pixel defining layer is made of fluorinated polyimide or silicone materials.

The third aspect of the present invention provides a kind of display device, and the display device includes display base plate, the display Substrate includes previously described display base plate

The production method of display base plate of the invention is included in form the in the step of forming the second light emitting element layer of multilayer At least step carried out between one light emitting element layer and formation the second light emitting element layer of the last layer forms the second pixel and defines Layer, which falls in first pixel defining layer in the orthographic projection of first pixel defining layer, and institute State the surfacial pattern far from the underlay substrate of the second pixel defining layer and the separate lining of first pixel defining layer The surfacial pattern of substrate is consistent.Therefore, the production method of display base plate of the invention forms multilayer second using inkjet printing It when light emitting element layer, even if there are ink droplets not to fall vertically, prints to above the first pixel defining layer, by the first picture of the lyophoby Element defines layer pollution, the lyophoby ability of first pixel defining layer is reduced, alternatively, ink-jet printing media is climbed in pixel unit To the first pixel defining layer surface, ink-jet printing media is caused to overflow in adjacent pixel unit, also due to the production method It is formed with the second pixel defining layer, therefore, the function of the first pixel defining layer can be served as by being formed by the second pixel defining layer, It can be effectively reduced the risk of ink-jet printing media overflow.

Display base plate of the invention is made to be formed of the production method of above-mentioned display base plate, due to the display base plate packet Include the second light emitting element layer of multilayer being sequentially formed above the first light emitting element layer, and the first light emitting element layer and last It is also formed with the second pixel defining layer between the second light emitting element layer of layer, therefore, is making the structure using inkjet printing technology Display base plate when, can effectively avoid ink-jet media to pollution caused by pixel defining layer, the overflow of caused ink-jet media Problem improves the production yield of the display base plate.

The display base plate of display device of the invention, the display base plate with above structure, the structure can be by above The production method of the display base plate of record makes to be formed, since above-mentioned display base plate includes being sequentially formed at the first light emitting element layer The second light emitting element layer of multilayer of top, and also formed between the second light emitting element layer of the first light emitting element layer and the last layer There is the second pixel defining layer, therefore, when making the display base plate of the structure using inkjet printing technology, can effectively avoid spraying Black medium is polluted to caused by pixel defining layer, the flooding problems of caused ink-jet media, and the production for improving the display device is good Rate.

Detailed description of the invention

The drawings are intended to provide a further understanding of the invention, and constitutes part of specification, with following tool Body embodiment is used to explain the present invention together, but is not construed as limiting the invention.In the accompanying drawings:

Fig. 1 is the process flow chart of display base plate in first embodiment of the invention；

Fig. 2 a to Fig. 2 f is the structural schematic diagram that display base plate is made in second embodiment of the invention；

Fig. 3 is the structural schematic diagram of the first pixel defining layer and pixel unit in third embodiment of the invention.

Description of symbols

100: display base plate；

110: underlay substrate；

120: the first pixel defining layers；

130: the first light emitting element layers；

140: the second light emitting element layers；

141: hole transmission layer；

142: luminescent layer；

150: the second pixel defining layers；

160: third pixel defining layer；

170: anode layer；

180: pixel unit.

Specific embodiment

Below in conjunction with attached drawing, detailed description of the preferred embodiments.It should be understood that this place is retouched The specific embodiment stated is merely to illustrate and explain the present invention, and is not intended to restrict the invention.

With reference to Fig. 1, Fig. 2 a to Fig. 2 f and Fig. 3.The first aspect of the present invention is related to a kind of production of display base plate 100 Method S100.Wherein, this method S100 includes:

S110, underlay substrate 110 is provided.

Specifically, as shown in Figure 2 a, which can be transparent glass substrate, and the underlay substrate 110 is in shape When at the first following pixel defining layers 120, anode layer 170 is formd, the material of the anode layer 170 usually can choose The transparent or semitransparent conduction material that the high function such as tin indium oxide (ITO), silver (Ag), nickel oxide (NiO), aluminium (Al) or graphene are contained Material, for how to form the anode layer 170 on underlay substrate 110, same as the prior art, therefore not to repeat here.

S120, the first pixel defining layer 120 is formed, underlay substrate 110 is divided into multiple pixel lists by pixel defining layer 120 Member 180.

Specifically, as shown in Figure 2 a, first pixel defining layer 120 is formed after foring anode layer, first pixel It defines layer 120 and underlay substrate 110 is divided into multiple pixel units 180.

More specifically, form the manufacture craft of first pixel defining layer 120, for example, can by way of deposition system Formed, deposit the first pixel defining layer film and photoresist on the surface of anode layer, be exposure mask using photoresist, etch this One pixel defining layer film, to form the first required pixel defining layer 120.

It should be noted that the material of the first pixel defining layer 120 is should be with hydrophobic material, in inkjet printing In the process, there is hydrophobic material can limit ink-jet printing media to overflow in adjacent pixel unit 180.

S130, the first light emitting element layer 130 is formed.

Specifically, as shown in Figure 2 b, which can be hole injection layer, i.e., with hole injection layer For ink-jet printing media, printing forms first light emitting element layer 130.

Sequentially form the second light emitting element layer of multilayer 140.

Wherein, above-mentioned production method S100 further include:

In step S130 and form at least step carried out between the second light emitting element layer of the last layer 140:

The second pixel defining layer 150 is formed, orthographic projection of second pixel defining layer 150 in the first pixel defining layer 120 It falls in the first pixel defining layer 120, and the surfacial pattern of the separate underlay substrate 110 of second pixel defining layer 150 and The surfacial pattern of the separate underlay substrate 110 of one pixel defining layer 120 is consistent.

Specifically, the manufacture craft for forming second pixel defining layer 150 can be with the first pixel defining layer 120 of formation Manufacture craft is identical, i.e., is exposure mask using photoresist by deposition the second pixel defining layer film and photoresist, etch this second Pixel defining layer film, to form the second required pixel defining layer 150.It should it is, of course, also possible to be formed in other way Second pixel defining layer 150.

It should be understood that the step of above-mentioned the second pixel defining layer of formation 150, can be every next layer second of formation and send out One layer of second pixel defining layer 150 is respectively formed before element layer 140.It is also possible to forming the second light-emitting component of the last layer Layer 140 before formed one layer of second pixel defining layer 150, it is, of course, also possible to be formed first layer light emitting element layer 140 it Before, namely form one layer of second pixel defining layer 150 of formation after the first light emitting element layer 130.It is, of course, also possible to be other Performance.

Wherein, in the same pixel unit 180, the first light emitting element layer 130 and the formation of multiple second light emitting element layers 140 For a part of the same Organic Light Emitting Diode.

It is included in the step of production method of the display base plate of the present embodiment, formation the second light emitting element layer of multilayer 140 It forms the first light emitting element layer 130 and forms at least step carried out between the second light emitting element layer of the last layer 140, formed Second pixel defining layer 150.Therefore, the production method of the display base plate of this implementation forms multilayer second using inkjet printing and sends out It when element layer 140, even if there are ink droplets not to fall vertically, prints to above the first pixel defining layer 120, by the of the lyophoby The pollution of one pixel defining layer 120, reduces the lyophoby ability of first pixel defining layer 120, alternatively, ink-jet printing media is in pixel Climbing causes ink-jet printing media to overflow in adjacent pixel unit 180 to the first pixel defining layer surface in unit, due to The production method is also formed with the second pixel defining layer 150, and therefore, can be served as by being formed by the second pixel defining layer 150 The function of one pixel defining layer 120, can be effectively reduced the risk of ink-jet printing media overflow.

Preferably, above-mentioned first light emitting element layer 130 is hole injection layer, and the second light emitting element layer of multilayer 140 wraps respectively Include hole transmission layer 141 and luminescent layer 142.Above-mentioned the step of sequentially forming the second light emitting element layer of multilayer 140 includes:

S140, the second pixel defining layer 150 is formed on the surface away from underlay substrate 110 of the first pixel defining layer 120.

That is, as shown in Figure 2 c, forming second pixel defining layer 150 at the top of the first pixel defining layer 120. The production method for being specifically form second pixel defining layer 150 can be with reference to above for the note of the first pixel defining layer 120 It carries, therefore not to repeat here.

S150, using hole mobile material as ink-jet printing media, printing form hole transmission layer 141.

Specifically, as shown in Figure 2 d, hole mobile material, for example, it may be poly-phenylene vinylene (ppv) (PPv) class, poly- thiophene Pheno class, triphenylmethane, tri-arylamine group, hydrazone class, pyrazolines, chews azole, carbazoles, butadiene type etc. at polysilanes.When So, it is also possible to other kinds of hole mobile material, is not limited thereto.

S160, defining away from the surface of the first pixel defining layer 120 formation third pixel in the second pixel defining layer 150 Layer 160.

That is, as shown in Figure 2 e, forming the third pixel defining layer 160 at the top of the second pixel defining layer 150. The production method for being specifically form the third pixel defining layer 160 can be with reference to above for the note of the first pixel defining layer 120 It carries, therefore not to repeat here.

S170, using luminescent material as ink-jet printing media, printing form luminescent layer 142, as shown in figure 2f.

In the production method of the display base plate of the present embodiment, before one layer of second light emitting element layer 140 of every formation, for example, Hole transmission layer 141 or luminescent layer 142 are initially formed one layer of second pixel defining layer 150 or third pixel defining layer 160, because This, the generation for phenomena such as capable of further preventing ink-jet printing media overflow from polluting caused by adjacent pixel unit.

Preferably, above-mentioned second pixel defining layer 150 and/or third pixel defining layer 160 with a thickness of 5-100nm.

The production method of the display base plate of the present embodiment, to the second pixel defining layer 150 and/or third pixel defining layer 160 thickness range is defined, the pixel defining layer in the thickness range, and ink-jet printing media can be effectively prevent to overflow Stream, is effectively ensured the lyophoby ability of pixel defining layer.

Preferably, above-mentioned second pixel defining layer 150 and/or third pixel defining layer 160 with a thickness of 10-50nm.

The production method of the display base plate of the present embodiment, to the second pixel defining layer 150 and third pixel defining layer 160 Thickness range is further limited, and the pixel defining layer in the thickness range can effectively prevent inkjet printing to be situated between The lyophoby ability of pixel defining layer is effectively ensured in matter overflow.

Preferably, the step of forming the second pixel defining layer 150 in above-mentioned steps S140 and is formed in step S160 The step of three pixel defining layer 160 includes:

Second pixel defining layer 150 is transferred to the surface of the first pixel defining layer 120 using heat-transferring method.

Third pixel defining layer 160 is transferred to the surface of the second pixel defining layer 150 using heat-transferring method.

Specifically, it can use laser thermal transfer (Laser Induced Thermal Imaging, LITI) and form second Pixel defining layer 150 and third pixel defining layer 160.Specifically, the structure of the laser thermal transfer may include substrate, be located at Heat insulation layer and heat-sink shell on substrate, wherein the material for needing to transfer (forms 150 He of the second pixel defining layer in the present invention The material of third pixel defining layer 160) in the surface of heat-sink shell formation organic film, it is heated by the orientation of laser, so that inhaling Organic film removing above thermosphere is transferred to presumptive area (namely top and the second pixel circle of the first pixel defining layer 120 The top of given layer 150).

The production method of the display base plate of the present embodiment, the second pixel defining layer required for being formed using heat-transferring method 150 and third pixel defining layer 160 structure, can further improve inkjet printing precision, reduce ink-jet printing media Overflow.

Preferably, the material of above-mentioned second pixel defining layer 150 and/or third pixel defining layer 160 includes fluorination polyamides Imines or silicone materials.

The production method of the display base plate of the present embodiment is to above-mentioned second pixel defining layer 150 and/or third pixel circle The restriction that the specific making material of given layer 160 carries out.Wherein, shape made by fluorinated polyimide or the silicone materials materials At pixel defining layer, have preferable lyophoby performance, can further effectively prevent ink-jet printing media overflow.

The second aspect of the present invention is related to a kind of display base plate 100, as shown in Fig. 2 a to Fig. 2 f and Fig. 3.Wherein, should Display base plate 100 includes underlay substrate 110, the first pixel defining layer 120 being formed on underlay substrate 110, pixel defining layer Underlay substrate 110 is divided into multiple pixel units 180 by 120.

Above-mentioned display base plate 100 further includes the first light emitting element layer 130 being formed on underlay substrate 110.

Above-mentioned display base plate 100 further includes the luminous member of multilayer second for being sequentially formed at 130 top of the first light emitting element layer Part layer 140.Wherein, the second picture is also formed between the first light emitting element layer 130 and the second light emitting element layer of the last layer 140 Element defines layer 150, which falls in the first pixel defining layer in the orthographic projection of the first pixel defining layer 120 In 120, and the surfacial pattern of the separate underlay substrate 110 of second pixel defining layer 150 is remote with the first pixel defining layer 120 Surfacial pattern from underlay substrate 110 is consistent.Wherein, in the same pixel unit, the first light emitting element layer 130 and multiple second Light emitting element layer 140 is formed as a part of the same Organic Light Emitting Diode.

It should be understood that the content as documented by first technical theme of the invention, on the underlay substrate 110 It should include also anode layer 170, remaining light emitting element layer and pixel defining layer are formed on the surface of the anode layer 170.

The display base plate 100 of the present embodiment structure, can be using the production method production shape for the display base plate recorded above At.Since the display base plate 100 of the present embodiment structure includes the multilayer second for being sequentially formed at 130 top of the first light emitting element layer Light emitting element layer 140, and is also formed between the first light emitting element layer 130 and the second light emitting element layer of the last layer 140 Therefore two pixel defining layers 150 when being made the display base plate 100 of the structure using inkjet printing technology, can be avoided effectively Ink-jet media is polluted to caused by pixel defining layer, and the flooding problems of caused ink-jet media improve the system of the display base plate 100 Make yield.

Preferably, above-mentioned first light emitting element layer 130 is hole injection layer, and the second light emitting element layer of multilayer 140 wraps respectively Include hole transmission layer 141 and luminescent layer 142, wherein hole transmission layer 141 is between hole injection layer and luminescent layer 142.

The display base plate 100 of the present embodiment structure is oled display substrate, is making the structure using inkjet printing technology When the oled display substrate of form, hole injection layer material, hole transport layer material and emitting layer material can be effectively prevent to lead Addressed pixel defines the pollution of layer, therefore, can effectively avoid ink-jet printing media overflow from polluting adjacent pixel unit 180 Phenomena such as generation, improve the production yield of the display base plate 100.

Preferably, above-mentioned second pixel defining layer 150 is made of fluorinated polyimide or silicone materials.

The display base plate of the present embodiment is the restriction carried out to the specific making material of above-mentioned second pixel defining layer 150. Wherein, fluorinated polyimide or the made pixel defining layer formed of the silicone materials material, have preferable lyophobicity Can, it can further effectively prevent ink-jet printing media overflow.

The third aspect of the present invention is related to a kind of display device (not showing that in figure), and display device includes display base plate, Display base plate includes the display base plate 100 recorded above.

The display device of this implementation structure, the display base plate 100 with above structure, the display base plate 100 of the structure can It makes to be formed with the production method by the display base plate 100 recorded above, since above-mentioned display base plate 100 includes sequentially forming The second light emitting element layer of multilayer 140 above the first light emitting element layer 130, and the first light emitting element layer 130 and last It is also formed with the second pixel defining layer 150 between the second light emitting element layer 140 of layer, therefore, is made using inkjet printing technology When the display base plate 100 of the structure, it can effectively avoid ink-jet media to pollution caused by pixel defining layer, caused ink-jet is situated between The flooding problems of matter improve the production yield of the display device.

It is understood that the principle that embodiment of above is intended to be merely illustrative of the present and the exemplary implementation that uses Mode, however the present invention is not limited thereto.For those skilled in the art, essence of the invention is not being departed from In the case where mind and essence, various changes and modifications can be made therein, these variations and modifications are also considered as protection scope of the present invention.

Claims (10)

1. a kind of production method of display base plate, which is characterized in that the described method includes:

Underlay substrate is provided；

The first pixel defining layer is formed, the underlay substrate is divided into multiple pixel units by the pixel defining layer；

Form the first light emitting element layer；

Sequentially form the second light emitting element layer of multilayer, wherein the method also includes:

One layer of second pixel defining layer, second pixel defining layer are respectively formed before every next the second light emitting element layer of layer of formation It is fallen in first pixel defining layer in the orthographic projection of first pixel defining layer, and second pixel defining layer is remote Surfacial pattern from the underlay substrate is consistent far from the surfacial pattern of the underlay substrate with first pixel defining layer；

Wherein, in the same pixel unit, first light emitting element layer and multiple second light emitting element layers are formed For a part of the same Organic Light Emitting Diode.

2. manufacturing method according to claim 1, which is characterized in that first light emitting element layer is hole injection layer, Second light emitting element layer described in multilayer respectively includes hole transmission layer and luminescent layer, described to sequentially form the second light-emitting component of multilayer Layer the step of include:

The second pixel defining layer is formed on the surface away from the underlay substrate of first pixel defining layer；

Using hole mobile material as ink-jet printing media, printing forms hole transmission layer；

Third pixel defining layer is formed on the surface away from first pixel defining layer of second pixel defining layer；

Using luminescent material as ink-jet printing media, printing forms luminescent layer.

3. production method according to claim 2, which is characterized in that second pixel defining layer and/or the third Pixel defining layer with a thickness of 5-100nm.

4. production method according to claim 3, which is characterized in that second pixel defining layer and/or the third Pixel defining layer with a thickness of 10-50nm.

5. production method according to claim 2, which is characterized in that described to deviate from institute in first pixel defining layer The surface for stating underlay substrate forms the second pixel defining layer, and deviates from first pixel in second pixel defining layer Define layer surface formed third pixel defining layer the step of include:

Second pixel defining layer is transferred to the surface of the first pixel defining layer using heat-transferring method；

Third pixel defining layer is transferred to the surface of the second pixel defining layer using heat-transferring method.

6. production method according to claim 5, which is characterized in that second pixel defining layer and/or the third The material of pixel defining layer includes fluorinated polyimide or silicone materials.

7. a kind of display base plate, which is characterized in that the display base plate includes underlay substrate, is formed on the underlay substrate The underlay substrate is divided into multiple pixel units by the first pixel defining layer, the pixel defining layer；

The first light emitting element layer being formed on the underlay substrate；

The second light emitting element layer of multilayer being sequentially formed above first light emitting element layer；And

Every the second pixel defining layer for forming next layer second light emitting element layer and being respectively formed one layer before, second pixel It defines layer to fall in first pixel defining layer in the orthographic projection of first pixel defining layer, and second pixel defines The surfacial pattern far from the underlay substrate of layer and the exterior view far from the underlay substrate of first pixel defining layer Shape is consistent；

Wherein, in the same pixel unit, first light emitting element layer and multiple second light emitting element layers are formed For a part of the same Organic Light Emitting Diode.

8. display base plate according to claim 7, which is characterized in that first light emitting element layer is hole injection layer, Second light emitting element layer described in multilayer respectively includes hole transmission layer and luminescent layer, wherein the hole transmission layer is located at described Between hole injection layer and the luminescent layer.

9. display base plate according to claim 7 or 8, which is characterized in that second pixel defining layer is by fluorination polyamides Imines or silicone materials are made.

10. a kind of display device, the display device includes display base plate, which is characterized in that the display base plate includes right It is required that display base plate described in 7 to 9 any one.