CN106098954A - A kind of organic electroluminescence device and preparation method thereof, display device - Google Patents

Abstract

The invention discloses a kind of organic electroluminescence device and preparation method thereof, display device, in order to promote the colour gamut using white light as the organic electroluminescence device of light source, and improve the problem that the aging rear color of organic electroluminescence device is partially yellow.Organic electroluminescence device includes underlay substrate, and white-light emitting layer, red sub-pixel filter layer, green sub-pixels filter layer and the blue subpixels filter layer being arranged on underlay substrate, wherein, also includes the first hole transmission layer and the second hole transmission layer；First hole transmission layer is arranged between the first anode corresponding to blue subpixels filter layer and white-light emitting layer, and covers the viewing area of underlay substrate；Second hole transmission layer is positioned at above the first anode, and covers the viewing area of underlay substrate；And the horizontal plane at one of at least corresponding from the green sub-pixels filter layer second plate of the horizontal plane at first anode place, third anode that red sub-pixel filter layer is corresponding place is positioned at different horizontal planes.

Description

A kind of organic electroluminescence device and preparation method thereof, display device

Technical field

The present invention relates to Display Technique field, particularly relate to a kind of organic electroluminescence device and preparation method thereof, display Device.

Background technology

Organic electroluminescence device (Organic Light Emitting Device, OLED) is that a kind of novel photoelectric shows Show and efficient illumination technology, due to its there is solid luminescent, visual angle width, low in energy consumption, fast response time, high-low temperature resistant etc. are a series of Excellent specific property, especially suitable in world today's low-carbon environment-friendly, the requirement of green living, and be widely used to flat pannel display, consolidate Daily production and the every field of life such as state illumination, Transparence Display, Flexible Displays and illumination.

Individually it is deposited with the OLED of mode compared to HONGGUANG, green glow and blue light, uses white light as the OLED device of light source The evaporation flow process that part needs is few, is widely used in large scale OLED.As it is shown in figure 1, prior art uses white light conduct The OLED of light source, including the red sub-pixel filter layer 11 being sequentially located on underlay substrate 10, green sub-pixels filter layer 12, blue subpixels filter layer 13, flatness layer 14, negative electrode 15, electron transfer layer 16, white-light emitting layer 17, hole transmission layer 18, The first anode 110 of blue subpixels filter layer 11 correspondence, the second plate 111 of green sub-pixels filter layer 12 correspondence, redness The third anode 112 of sub-pixel filter layer 13 correspondence, encapsulated layer 19.

Prior art use white light as the OLED of light source, use white light as light source, collocation chromatic filter layer Through spectrum, by controlling the size of OLED electric current, reach the effect of colored display, from figure 1 it will be seen that red sub-picture The emission spectrum of element, green sub-pixels and blue subpixels corresponding position is just the same, and colour gamut cannot get a promotion.

In sum, prior art uses white light relatively low as the colour gamut of the OLED of light source；Further, since OLED device In part, the life time decay phenomenon of blue light is serious, and the envelope of the red sub-pixel of OLED, green sub-pixels and blue subpixels Fill just the same, be easily caused OLED aging after the phenomenon that color is partially yellow occurs.

Summary of the invention

Embodiments provide a kind of organic electroluminescence device and preparation method thereof, display device, in order to promote Employing white light is as the colour gamut of the organic electroluminescence device of light source, and it is the most yellow to improve the aging rear color of organic electroluminescence device Problem.

A kind of organic electroluminescence device that the embodiment of the present invention provides, including underlay substrate, and is arranged on described lining White-light emitting layer, red sub-pixel filter layer, green sub-pixels filter layer and blue subpixels filter layer on substrate；Described Underlay substrate includes viewing area and perimeter leads district；Wherein, the first hole transmission layer and the second hole transmission layer are also included；

Described first hole transmission layer is arranged on the first anode corresponding to described blue subpixels filter layer and described white light Between luminescent layer, and cover the viewing area of described underlay substrate；

Described second hole transmission layer is positioned at above the described first anode, and covers the viewing area of described underlay substrate；With And

Second plate that the horizontal plane at described first anode place is at least corresponding with described green sub-pixels filter layer, described The horizontal plane at one of the third anode that red sub-pixel filter layer is corresponding place is positioned at different horizontal planes.

The organic electroluminescence device provided by the embodiment of the present invention, owing to the second hole transmission layer is positioned on the first anode Side, and cover the viewing area of underlay substrate, therefore the second hole transmission layer is also used as the encapsulated layer of blue subpixels so that The water oxygen isolation effect of blue subpixels obtains bigger improvement, and therefore the embodiment of the present invention can improve organic electroluminescence The problem that the aging rear color of part is partially yellow；It addition, compared with the organic electroluminescence device of prior art, in the embodiment of the present invention The horizontal plane at one anode place at least horizontal plane from one of second plate, third anode place is positioned at different horizontal planes, i.e. In the embodiment of the present invention, the first anode arrives to the distance between the distance between negative electrode, second plate to negative electrode and third anode In distance between negative electrode, at least the value of two distances is unequal, therefore, and organic electroluminescence device in the embodiment of the present invention Emission spectrum there are differences, the colour gamut of organic electroluminescence device gets a promotion.

It is preferred that also include the 3rd hole transmission layer, described 3rd hole transmission layer is arranged at described second plate and institute State between third anode.

It is preferred that described 3rd hole transmission layer covers the viewing area of described underlay substrate.

It is preferred that also include yellow sub-pixel filter layer or white sub-pixels filter layer, and the 4th hole transmission layer；

Described 4th hole transmission layer is arranged at anode corresponding to described yellow sub-pixel filter layer and described third anode Between；Or,

Described 4th hole transmission layer is arranged at anode corresponding to described white sub-pixels filter layer and described third anode Between.

It is preferred that described 4th hole transmission layer covers the viewing area of described underlay substrate.

It is preferred that the material of described first hole transmission layer, the material of described second hole transmission layer, and the described 3rd The material of hole transmission layer is the most identical.

It is preferred that the material of described first hole transmission layer, the material of described second hole transmission layer, and the described 3rd The material of hole transmission layer is inorganic material.

The embodiment of the present invention additionally provides a kind of display device, and this display device includes above-mentioned organic electroluminescence Part.

The embodiment of the present invention additionally provides the manufacture method of a kind of organic electroluminescence device, is included on underlay substrate system Make white-light emitting layer, red sub-pixel filter layer, green sub-pixels filter layer, blue subpixels filter layer and described blueness Second plate that the first anode that sub-pixel filter layer is corresponding, described green sub-pixels filter layer are corresponding and described red sub-pixel The method of the third anode that filter layer is corresponding, wherein, the method also includes:

Underlay substrate makes the first hole transmission layer of the viewing area covering underlay substrate, described first hole transport Layer is produced between the described first anode and described white-light emitting layer；

The second hole transmission layer in the viewing area of the described first anode described underlay substrate of covering fabricated above；Wherein: The horizontal plane at described first anode place at least horizontal plane with one of described second plate, described third anode place is positioned at not Same horizontal plane.

It is preferred that be additionally included on described underlay substrate the 3rd hole biography making the viewing area covering described underlay substrate Defeated layer, described 3rd hole transmission layer is produced between described second plate and described third anode.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of organic electroluminescence device of prior art；

The knot of the organic electroluminescence device of a kind of bottom emitting type that Fig. 2 (a) and Fig. 2 (b) provides for the embodiment of the present invention Structure schematic diagram；

The structural representation of the organic electroluminescence device of another bottom emitting type that Fig. 3 provides for the embodiment of the present invention；

The structural representation of the organic electroluminescence device of the another bottom emitting type that Fig. 4 provides for the embodiment of the present invention；

The structural representation of the organic electroluminescence device of a kind of top emission type that Fig. 5 provides for the embodiment of the present invention；

The manufacture method flow chart of a kind of organic electroluminescence device that Fig. 6 provides for the embodiment of the present invention.

Detailed description of the invention

Embodiments provide a kind of organic electroluminescence device and preparation method thereof, display device, in order to promote Employing white light is as the colour gamut of the organic electroluminescence device of light source, and it is the most yellow to improve the aging rear color of organic electroluminescence device Problem.

In order to make the object, technical solutions and advantages of the present invention clearer, below in conjunction with accompanying drawing the present invention made into One step ground describes in detail, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole enforcement Example.Based on the embodiment in the present invention, those of ordinary skill in the art are obtained under not making creative work premise All other embodiments, broadly fall into the scope of protection of the invention.

Organic electroluminescence device that the specific embodiment of the invention provide is discussed in detail below in conjunction with the accompanying drawings.

In accompanying drawing, each thicknesses of layers and area size, shape do not react the actual proportions of each film layer, and purpose is simply illustrated Bright present invention.

As shown in Fig. 2 (a) and Fig. 2 (b), the specific embodiment of the invention provides a kind of organic electroluminescence device, including Underlay substrate 10, and be arranged on underlay substrate 10 white-light emitting layer 17, red sub-pixel filter layer 13, green sub-pixels Filter layer 12 and blue subpixels filter layer 11；Underlay substrate 10 includes that viewing area and perimeter leads district, viewing area and periphery draw The concrete division in line district is same as the prior art, repeats no more here；

The organic electroluminescence device that the specific embodiment of the invention provides also includes that the first hole transmission layer 31 and second is empty Cave transmitting layer 32；

First hole transmission layer 31 is arranged on the first anode 110 and the white-light emitting layer of blue subpixels filter layer 11 correspondence Between 17, and cover the viewing area of underlay substrate 10；Second hole transmission layer 32 is positioned at above the first anode 110, and covers lining The viewing area of substrate 10；

Second plate 111 that the horizontal plane at the first anode 110 place is at least corresponding with green sub-pixels filter layer 12, red The horizontal plane at one of the third anode 112 of sub-pixel filter layer 13 correspondence place is positioned at different horizontal planes, concrete such as Fig. 2 (a) Shown in, the horizontal plane at the first anode 110 place is positioned at different horizontal planes, such as Fig. 2 from the horizontal plane at third anode 112 place Shown in (b), the horizontal plane at the first anode 110 place and the horizontal plane at second plate 111 place and the water at third anode 112 place Plane is respectively positioned on different horizontal planes.

Preferably, the material of the first hole transmission layer and the material phase of the second hole transmission layer in the specific embodiment of the invention With, the material of the first hole transmission layer and the material of the second hole transmission layer are inorganic material, and when being embodied as, the present invention is concrete The material of embodiment the first hole transmission layer and the material preferential oxidation Mo of the second hole transmission layer, certainly, raw in reality During product, it is also possible to select other inorganic material, the specific embodiment of the invention not concrete to the first hole transmission layer The concrete material of material and the second hole transmission layer limits.

Owing to blue light excites the energy height of needs, required voltage is high, is easily affected by water oxygen environment, by water oxygen environment The aging rear color of organic electroluminescence device can be caused after impact the most yellow, aging with the organic electroluminescence device of prior art after Color Huang partially is compared, and owing to the second hole transmission layer in the specific embodiment of the invention is positioned at above the first anode, and covers lining The viewing area of substrate, therefore the second hole transmission layer is also used as the encapsulated layer of blue subpixels, and encapsulated layer is the most, water oxygen It is the best to isolate, and therefore the specific embodiment of the invention can improve the problem that the aging rear color of organic electroluminescence device is partially yellow.

It addition, compared with the organic electroluminescence device of prior art, due to the first anode in the specific embodiment of the invention The horizontal plane at place at least horizontal plane from one of second plate, third anode place is positioned at different horizontal planes, the i.e. present invention In specific embodiment, the first anode is to the distance between negative electrode, at least and second plate is to the distance between negative electrode and third anode The value of a distance in the distance between negative electrode is unequal, therefore, and organic electroluminescence in the specific embodiment of the invention The emission spectrum of part there are differences, and the colour gamut of organic electroluminescence device gets a promotion.

Preferably, the organic electroluminescence device in the specific embodiment of the invention also includes the 3rd hole transmission layer, the 3rd Hole transmission layer is arranged between second plate and third anode.

Further, in order to preferably blue subpixels be carried out water oxygen isolation, the 3rd in the specific embodiment of the invention Hole transmission layer covers the viewing area of underlay substrate.

Specifically, as it is shown on figure 3, the organic electroluminescence device in the specific embodiment of the invention includes the first hole transport Layer the 31, second hole transmission layer 32 and the 3rd hole transmission layer 33, the first hole transmission layer 31 is positioned at the first anode 110 and white light Between luminescent layer 17, the second hole transmission layer 32 between second plate 111 and the first anode 110, the 3rd hole transmission layer 33 between third anode 112 and second plate 111.

As it is shown on figure 3, with in the distance between second plate 111 and negative electrode 15 and Fig. 1 between second plate and negative electrode As a example by equal, the organic electroluminescence device in the specific embodiment of the invention is sent out with the organic electroluminescence in prior art Fig. 1 Optical device is compared, and in the specific embodiment of the invention, the distance between third anode 112 and negative electrode 15 is bigger, organic electroluminescence The emission spectrum wavelength of part is bigger, and the display of organic electroluminescence device more biasing is red；First sun in the specific embodiment of the invention Distance between pole 110 and negative electrode 15 is less, and the emission spectrum wavelength of organic electroluminescence device is less, organic electroluminescence The display of part more biasing is blue.Therefore, the specific embodiment of the invention can be good at promoting the Organic Electricity using white light as light source The colour gamut of electroluminescence device.

As it is shown on figure 3, the second hole transmission layer 32 and the 3rd hole transmission layer 33 in the specific embodiment of the invention also may be used For use as the encapsulated layer of blue subpixels, encapsulated layer is the most, and the isolation of water oxygen is the best, and so, the encapsulation of blue subpixels is more than red The encapsulation of sub-pixels and the encapsulation of green sub-pixels, can improve the aging rear face of organic electroluminescence device when life-time service The problem that colour cast is yellow.

Further, since the first hole transmission layer, the second hole transmission layer and the 3rd hole in the specific embodiment of the invention Transport layer is the design of flood, need not in process of production use extra mask plate, and production cost is relatively low.

Preferably, the material of the first hole transmission layer, the material of the second hole transmission layer in the specific embodiment of the invention, with And the 3rd the material of hole transmission layer the most identical, so, convenient in the material selection in actual production process, and can Save material purchase cost.

Specifically, the material of the first hole transmission layer, the material of the second hole transmission layer in the specific embodiment of the invention, with And the 3rd the material of hole transmission layer be inorganic material, when being embodied as, the specific embodiment of the invention the first hole transmission layer The material preferential oxidation Mo of material, the material of the second hole transmission layer and the 3rd hole transmission layer.Certainly, raw in reality During product, it is also possible to select other inorganic material, it is also possible to by the material of the first hole transmission layer, the second hole transmission layer Material and the material of the 3rd hole transmission layer all select different types of material.

When being embodied as, as shown in Figure 4, the organic electroluminescence device in the specific embodiment of the invention also includes yellow Pixel filter layer or white sub-pixels filter layer, and the 4th hole transmission layer；Fig. 4 is only to include yellow sub-pixel filter layer 51 As a example by be introduced, the 4th hole transmission layer 52 is arranged at anode 53 and the third anode of yellow sub-pixel filter layer 51 correspondence Between 112, it is preferable that the 4th hole transmission layer 52 in the specific embodiment of the invention covers the viewing area of underlay substrate 10.With Reason, the design of white sub-pixels filter layer is similar with the design of yellow sub-pixel filter layer, repeats no more here.

Organic electroluminescence device in the specific embodiment of the invention can be for the bottom emitting type as shown in Fig. 2 (a) to Fig. 4 Structure, it is also possible to for top emission type structure as shown in Figure 5.Specifically, as it is shown in figure 5, having in the specific embodiment of the invention Organic electroluminescence devices includes the first hole transmission layer the 31, second hole transmission layer 32 and the 3rd hole transmission layer 33, and covers The protective layer 60 of lid red sub-pixel filter layer 13, green sub-pixels filter layer 12 and blue subpixels filter layer 11.

The specific embodiment of the invention additionally provides a kind of display device, and this display device includes that the specific embodiment of the invention carries The above-mentioned organic electroluminescence device of confession, this display device can be Organic Light Emitting Diode (Organic Light Emitting Diode, OLED) display device such as panel, OLED display, OLED TV.

As shown in Figure 6, the specific embodiment of the invention additionally provides the manufacture method of a kind of organic electroluminescence device, including Underlay substrate makes white-light emitting layer, red sub-pixel filter layer, green sub-pixels filter layer, blue subpixels optical filtering Layer and the first anode corresponding to described blue subpixels filter layer, the second plate that described green sub-pixels filter layer is corresponding The method of the third anode corresponding with described red sub-pixel filter layer, wherein, the method also includes:

S601, making the first hole transmission layer of viewing area covering underlay substrate on underlay substrate, described first is empty Cave transport layer is produced between the described first anode and described white-light emitting layer；

S602, the second hole transmission layer in the viewing area of the described first anode described underlay substrate of covering fabricated above； Wherein: the horizontal plane at described first anode place at least with the horizontal plane at one of described second plate, described third anode place It is positioned at different horizontal planes.

Preferably, the specific embodiment of the invention is additionally included on underlay substrate and makes the of the viewing area covering underlay substrate Three hole transmission layers, the 3rd hole transmission layer is produced between second plate and third anode, the 3rd hole transmission layer concrete Production location is referred to shown in Fig. 3.

Be discussed in detail separately below the specific embodiment of the invention make bottom emitting type structure organic electroluminescence device and The method of the organic electroluminescence device of top emission type structure.

The organic electroluminescence device of specific embodiment of the invention making bottom emitting type structure combines Fig. 3 and is introduced, first First, underlay substrate 10 makes red sub-pixel filter layer 13, green sub-pixels filter layer 12 and blue subpixels filter layer 11, the concrete manufacture method of red sub-pixel filter layer 13, green sub-pixels filter layer 12 and blue subpixels filter layer 11 with Prior art is identical, repeats no more here.In actual production process, it is also possible to make yellow sub-pixel filter on underlay substrate 10 Photosphere, as shown in Figure 4, and can also make white sub-pixels filter layer etc..

Then, as it is shown on figure 3, filter at red sub-pixel filter layer 13, green sub-pixels filter layer 12 and blue subpixels Making flatness layer 14 on photosphere 11, the concrete manufacture method of flatness layer is same as the prior art, repeats no more here.Then, exist The methods such as sputtering are used to make negative electrode 15, material preferential oxidation indium stannum (ITO) material of negative electrode 15, the tool of negative electrode on flatness layer 14 Body manufacture method is same as the prior art, repeats no more here.

Then, as it is shown on figure 3, on negative electrode 15 make electron transfer layer 16, electron transfer layer can be single layer structure or Multiple structure；Then, making white-light emitting layer 17 on electron transfer layer 16, white-light emitting layer can be single layer structure or multilamellar Structure；Then, white-light emitting layer 17 makes the first hole transmission layer 31, the first hole transmission layer can be single layer structure or Multiple structure including electronic barrier layer.In the specific embodiment of the invention, electron transfer layer, white-light emitting layer and the first hole pass The concrete manufacture method of defeated layer is same as the prior art, repeats no more here.

Then, as it is shown on figure 3, use evaporation coating method to make the first anode 110, the first sun on the first hole transmission layer 31 The concrete manufacture method of pole is same as the prior art, repeats no more here.Then, the first anode 110 makes the second hole Transmitting layer 32, the second hole transmission layer can use the method such as evaporation to make, the concrete manufacture method of the second hole transmission layer with The manufacture method of the first hole transmission layer is identical.

Then, as it is shown on figure 3, make second plate 111 on the second hole transmission layer 32, the concrete making of second plate Method is same as the prior art, repeats no more here.Then, making the 3rd hole transmission layer 33 on second plate 111, the 3rd The concrete manufacture method of hole transmission layer is identical with the manufacture method of the first hole transmission layer.

Then, as it is shown on figure 3, make third anode 112 on the 3rd hole transmission layer 33, the concrete making of third anode Method is same as the prior art, repeats no more here.The first anode 110 in the specific embodiment of the invention, second plate 111 and The material of third anode 112 can be metal material, it is also possible to for other conductive material.Finally, the whole substrate base of covering is made The encapsulated layer 19 of plate, the concrete manufacture method of encapsulated layer is same as the prior art, repeats no more here.

The organic electroluminescence device of specific embodiment of the invention making top emission type structure combines Fig. 5 and is introduced, first First, underlay substrate 10 makes the first anode 110, then, the first anode 110 makes the first hole transmission layer 31, connects , the first hole transmission layer 31 makes second plate 111, then, second plate 111 makes the 3rd hole transmission layer 33, then, the 3rd hole transmission layer 33 makes third anode 112, then, third anode 112 makes the second hole Transmitting layer 32.

Then, as it is shown in figure 5, make successively on the second hole transmission layer 32 white-light emitting layer 17, electron transfer layer 16, Negative electrode 15, encapsulated layer 19, red sub-pixel filter layer 13, green sub-pixels filter layer 12, blue subpixels filter layer 11, and Protective layer 60.

In sum, the specific embodiment of the invention provides a kind of organic electroluminescence device, including underlay substrate, Yi Jishe Put the white-light emitting layer on underlay substrate, red sub-pixel filter layer, green sub-pixels filter layer and blue subpixels to filter Layer；Underlay substrate includes viewing area and perimeter leads district；Wherein, the first hole transmission layer and the second hole transmission layer are also included； First hole transmission layer is arranged between the first anode corresponding to blue subpixels filter layer and white-light emitting layer, and covers substrate The viewing area of substrate；Second hole transmission layer is positioned at above the first anode, and covers the viewing area of underlay substrate；And first sun Second plate that the horizontal plane at place, pole is at least corresponding with green sub-pixels filter layer, red sub-pixel filter layer corresponding the 3rd The horizontal plane at one of anode place is positioned at different horizontal planes.Due to the second hole transmission layer position in the specific embodiment of the invention Above the first anode, and covering the viewing area of underlay substrate, therefore the second hole transmission layer is also used as blue subpixels Encapsulated layer so that the water oxygen isolation effect of blue subpixels obtains bigger improvement, and therefore the specific embodiment of the invention can Improve the problem that the aging rear color of organic electroluminescence device is partially yellow；It addition, with the organic electroluminescence device phase of prior art Ratio, in the specific embodiment of the invention horizontal plane at first anode place at least with the water at one of second plate, third anode place Plane is positioned at the first anode in different horizontal planes, the i.e. specific embodiment of the invention and arrives to the distance between negative electrode, second plate Distance between negative electrode and third anode in the distance between negative electrode at least the value of two distances unequal, therefore, this In invention specific embodiment, the emission spectrum of organic electroluminescence device there are differences, and the colour gamut of organic electroluminescence device obtains Promote.

Obviously, those skilled in the art can carry out various change and the modification essence without deviating from the present invention to the present invention God and scope.So, if these amendments of the present invention and modification belong to the scope of the claims in the present invention and equivalent technologies thereof Within, then the present invention is also intended to comprise these change and modification.

Claims (10)

1. an organic electroluminescence device, including underlay substrate, and be arranged on described underlay substrate white-light emitting layer, Red sub-pixel filter layer, green sub-pixels filter layer and blue subpixels filter layer；Described underlay substrate include viewing area and Perimeter leads district；It is characterized in that, also include the first hole transmission layer and the second hole transmission layer；

Described first hole transmission layer is arranged on the first anode corresponding to described blue subpixels filter layer and described white-light emitting Between Ceng, and cover the viewing area of described underlay substrate；

Described second hole transmission layer is positioned at above the described first anode, and covers the viewing area of described underlay substrate；And

The second plate that the horizontal plane at described first anode place is at least corresponding with described green sub-pixels filter layer, described redness The horizontal plane at one of the third anode that sub-pixel filter layer is corresponding place is positioned at different horizontal planes.

Organic electroluminescence device the most according to claim 1, it is characterised in that also include the 3rd hole transmission layer, institute State the 3rd hole transmission layer to be arranged between described second plate and described third anode.

Organic electroluminescence device the most according to claim 2, it is characterised in that described 3rd hole transmission layer covers institute State the viewing area of underlay substrate.

Organic electroluminescence device the most according to claim 2, it is characterised in that also include yellow sub-pixel filter layer or White sub-pixels filter layer, and the 4th hole transmission layer；

Described 4th hole transmission layer is arranged between anode corresponding to described yellow sub-pixel filter layer and described third anode； Or,

Described 4th hole transmission layer is arranged between anode corresponding to described white sub-pixels filter layer and described third anode.

Organic electroluminescence device the most according to claim 4, it is characterised in that described 4th hole transmission layer covers institute State the viewing area of underlay substrate.

Organic electroluminescence device the most according to claim 2, it is characterised in that the material of described first hole transmission layer Material, the material of described second hole transmission layer, and the material of described 3rd hole transmission layer is the most identical.

Organic electroluminescence device the most according to claim 6, it is characterised in that the material of described first hole transmission layer Material, the material of described second hole transmission layer, and the material of described 3rd hole transmission layer is inorganic material.

8. a display device, it is characterised in that include the organic electroluminescence described in claim 1-7 any claim Part.

9. a manufacture method for organic electroluminescence device, is included on underlay substrate making white-light emitting layer, red sub-picture Element filter layer, green sub-pixels filter layer, blue subpixels filter layer and described blue subpixels filter layer corresponding first The third anode that second plate that anode, described green sub-pixels filter layer are corresponding is corresponding with described red sub-pixel filter layer Method, it is characterised in that also include:

Underlay substrate makes the first hole transmission layer of the viewing area covering underlay substrate, described first hole transmission layer system Make between the described first anode and described white-light emitting layer；

The second hole transmission layer in the viewing area of the described first anode described underlay substrate of covering fabricated above；Wherein: described The horizontal plane at first anode place at least horizontal plane from one of described second plate, described third anode place is positioned at different Horizontal plane.

Manufacture method the most according to claim 9, it is characterised in that be additionally included on described underlay substrate making and cover 3rd hole transmission layer of the viewing area of described underlay substrate, described 3rd hole transmission layer is produced on described second plate and institute State between third anode.