CN1221215A - White-light electroluminescence device with organic multi-quantum pit structure - Google Patents
White-light electroluminescence device with organic multi-quantum pit structure Download PDFInfo
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- CN1221215A CN1221215A CN98124267A CN98124267A CN1221215A CN 1221215 A CN1221215 A CN 1221215A CN 98124267 A CN98124267 A CN 98124267A CN 98124267 A CN98124267 A CN 98124267A CN 1221215 A CN1221215 A CN 1221215A
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Abstract
An electroluminescent organic white-light device with more quantum traps features that it is unnecessary to match the energy bands between luminous layers, so having higher luminous efficiency. Three oragnic dyes: red, green and blue are used as the luminous layers of quantum traps. The carriers are limited to these luminous layers of quantum traps. Different traps generate respectively red, green and blue light beams, resulting in white light. Its maxmal brightness is 4000 nits and its luminous efficiency is 0.4 lumens/w.
Description
The present invention is a kind of white organic electro-luminescence display device.
It is very extensive that white light emitting device is used, and commonly used have used back-illumination source such as liquid crystal, watch.The method for preparing at present the white organic electroluminescent device mainly contains four kinds: (1) dye adulterated electrostrictive polymer luminescent device:
Producing white light needs three primary colors, i.e. three kinds of colors of red, green, blue.In Japan, there is the people that three kinds of luminescent dyes of red, green, blue are doped to (as polyvinylcarbazole) in the polymer matrix simultaneously, realized white light emission.Shortcoming is that cut-in voltage compares up to 10V, and luminous efficiency is low.(2) polyblend white light parts:
With the polymer of different glow colors molten altogether in a kind of solvent the way by spin coating prepare white light emitting device.(3) micro-cavity structure white light emitting device:
Utilize the characteristics of organic electroluminescent spectrum than broad, adopt the way of microcavity, make it produce indigo plant, trichromatic light such as green, red respectively, realize white light emission, its shortcoming is the technology more complicated.
The prior art the most close with the present invention is the multilayer white light parts, and people such as J.Kido successively are stacked into the method for red, green, blue fluorescent dye with evaporation together.Utilize the energy of exciton to shift the realization white light emission.This structural requirement luminescent material can be with coupling very strict, and colourity be difficult for to be regulated.
Compare with the multilayer white light parts, the purpose that adopts organic multi-quantum pit structure to prepare white-light electroluminescence device is that it is not very strict that this structure can be with the requirement of coupling to material, thereby the selection of giving material is with the bigger degree of freedom, simultaneously because the restriction of quantum well also helps improving the luminous efficiency of device.The form of luminescent layer (red, green, blue three-color light-emitting material) with trap is strapped between the layer of base, and this quantum well structure of result is strapped in charge carrier and exciton in the trap of each layer, sends the light of different colours from different traps, thereby realizes white light emission.
Inorganic multi-quantum pit structure to improve device performance have plurality of advantages as: reduce state density, improve gain, reduce threshold value, improve and inject stability, improve modulation bandwidth.Organic quantum trap also is present research focus, and it is not a crystalline material, but because it has the conductivity of optical absorption edge and e index and the relation of temperature, therefore, also can use some basic problems that inorganic band theory is studied organic quantum well.
When the trap number not for a long time, in organic/polymer quantum trap, can realize that also charge carrier evenly distributes because in organic material, the effective mass m of charge carrier
*Bigger, it is smaller to wear probability then, and therefore, the thickness at base is thinner, but does not influence the quality of film, and the thickness of trap is not wanted the too thick more effectively bound exciton that is beneficial to yet.Present quantum well radiation device, no matter be organic or inorganic, it all is the monochromatic light emitters part, the material that is trap is identical, in conjunction with the characteristics of quantum well devices, we propose white organic quantum well radiation device, promptly mix the fluorescent dye of different glow colors in different traps, realize multicolor luminously, realize white light emission by the ratio of regulating glow color (being the three primary colors red, green, blues).So the characteristics of bond material, we design the structure of this device.
The design of organic multi-quantum pit structure white light electroluminescence device and preparation technology go up growth hole transmission layer (2) at electro-conductive glass (1), grow in turn again blue light-emitting (3), barrier layer (6), Yellow light emitting layer (4), barrier layer (6), green luminescence layer (5) is metal electrode (7) at last.
The material of conductive glass layer (1), hole transmission layer (2) and each luminescent layer can be:
(PP
2Be), blue light dyestuff, peak luminous wavelength are about 450nm.
Oxine aluminium (Alq3), peak luminous wavelength are 520nm.
Rubrene (Rubrene), gold-tinted dyestuff, peak luminous wavelength are 560nm.
Tetraphenyl diamines (TPD), hole mobile material, Aldrich company product.
ITO electro-conductive glass, square resistance are 40 Ω/, smooth precision 2~10nm.
The molecular structure of various materials can be referring to accompanying drawing 2 to accompanying drawing 5.
Device architecture is: ITO/TPD (50-70nm)/PP
2Be (5-7nm)/TPD (4-6nm)/PP
2Be:Rubrene (5-7nm)/TPD (4-6nm)/Alq3 (10-20nm)/Al is respectively with PP
2Be and PP
2Be:Rubreue is blue light and gold-tinted mqw light emitting layer, as hole transmission layer and barrier layer, is green luminescence layer with Alq3 with TPD, and Al is an electron injection electrode.
Indium tin oxide (ITO) electro-conductive glass is as the transparent positive pole of electroluminescent device.The ITO electro-conductive glass is used toluene, acetone, ethanol and deionized water ultrasonic cleaning successively, dash greasy dirt and the dust of doing to remove substrate surface with alcohol vapour again, use oxygen plasma treatment ITO surface at last.Preparation of devices is carried out in multi-source organic molecule depositing system.The vacuum degree of system remains on 3 * 10 in preparation process
-6About Torr.With BePP
2, Alq
3Be placed in the different evaporation source (silica crucible) Deng organic material, the temperature of evaporation source can be controlled separately, and the precision of control can reach ± and 1 ℃.Each evaporation source is raised to the temperature of appointment, then by the device architecture of the design organic material of on the ito glass substrate, growing.The evaporation rate of organic material generally is controlled at (by Control for Kiln Temperature) about 0.2nm/sec, and evaporation thickness is monitored by film-thickness monitoring.PP wherein
2The Be:Rubreue layer makes PP in the mode of common source evaporation
2The ratio of Be and Rubreue is about 100:1-5.The highly purified aluminium of final evaporation (Al) 200 nm are as electrode.Make the organic multi-quantum pit white-light electroluminescence device thus.
Fig. 1 is an organic multi-quantum pit structure white light parts structure chart.
The molecular structure of the used organic material of Fig. 2-Fig. 5.
Figure-6 is respectively (a) ITO/TPD (50nm)/PP
2Be (50nm)/Al, (c) ITO/TPD (50nm)/PP
2Be:Rubrene (50nm)/Al, (b) electroluminescent spectrum of ITO/TPD (50nm)/Alq3 (50nm)/Al, its luminous PP that derives from respectively
2Be, Rubrene and Alq3.
Figure-7 is the electroluminescent spectrum of white-light electroluminescence device with organic multi-quantum pit structure.
Because the energy gap Eg of TPD is greater than PP
2So the energy gap of Be and Rubrene is PP
2The exciton of Be and Rubrene can be limited in the trap.Entire device luminous respectively from PP
2Be, Rubrene and Alq3's is luminous, has reached purpose of design in advance, has realized the luminous of many traps.The TPD barrier layer plays important effect in this device, its thickness directly has influence on two kinds of charge carrier distributions in each luminescent layer, and the thickness that adopts is 4-6nm usually.The radiative chromaticity coordinates of this organic multi-quantum pit white light parts is (0.32,0.38) (recording under 9V voltage), and waiting of white light can point coordinates be (0.33,0.33).The maximum luminousing brightness of this device and luminous efficiency are 4000cd/m
2And 0.41m/W.Near international most advanced level.
Claims (4)
1 one kinds of white-light electroluminescence device with organic multi-quantum pit structure, it is characterized in that with electro-conductive glass (1) be substrate, growth has blue light-emitting (3), green luminescence layer (5) above, green luminescence layer (5) is gone up length aluminium electrode (7), and it is characterized in that also growing between electro-conductive glass (1) and the blue light-emitting (3) has hole transmission layer (2); Barrier layer (6) is arranged having between barrier layer (6), Yellow light emitting layer (4) and the green luminescence layer (5) between blue light-emitting (3) and the Yellow light emitting layer (4).
2 require 1 described white-light electroluminescence device with organic multi-quantum pit structure according to claim, the material that it is characterized in that blue light-emitting (3), Yellow light emitting layer (4), green luminescence layer (5) is respectively the phonetic beryllium complex of phenolic group pyrrole, rubrene, oxine aluminium, and the material of hole transmission layer (2) and barrier layer (6) is the tetraphenyl diamines.
3 require 1 described white-light electroluminescence device with organic multi-quantum pit structure according to claim, it is characterized in that each luminescent layer is strapped in the middle of the barrier layer (6) with the form of quantum well, thereby charge carrier and exciton are strapped in each trap.
4 require 1 described white-light electroluminescence device with organic multi-quantum pit structure according to claim, it is characterized in that the thickness of barrier layer (6) is (4-6) nm, and the thickness of each mqw light emitting layer is (5-7) nm.
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CN98124267A CN1070315C (en) | 1998-11-06 | 1998-11-06 | White-light electroluminescence device with organic multi-quantum pit structure |
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CN100432182C (en) * | 2003-02-14 | 2008-11-12 | 奥斯兰姆施尔凡尼亚公司 | Single component whilte inorganic electroluminous material and its preparation method |
CN100459215C (en) * | 2006-10-12 | 2009-02-04 | 北京交通大学 | White light organic electroluminescent display device |
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CN102683599A (en) * | 2011-03-09 | 2012-09-19 | 海洋王照明科技股份有限公司 | Luminescent layer of white-light electroluminescent device and preparation method and application of luminescent layer |
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US5503910A (en) * | 1994-03-29 | 1996-04-02 | Idemitsu Kosan Co., Ltd. | Organic electroluminescence device |
JP2754339B2 (en) * | 1994-07-29 | 1998-05-20 | 株式会社岡村製作所 | Side panel structure of telescopic stairs |
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CN100341162C (en) * | 2004-03-19 | 2007-10-03 | 元砷光电科技股份有限公司 | Light-emitting diode structure |
CN100459215C (en) * | 2006-10-12 | 2009-02-04 | 北京交通大学 | White light organic electroluminescent display device |
CN102651451A (en) * | 2011-02-24 | 2012-08-29 | 海洋王照明科技股份有限公司 | Electroluminescence device |
CN102651451B (en) * | 2011-02-24 | 2015-04-01 | 海洋王照明科技股份有限公司 | Electroluminescence device |
CN102683597A (en) * | 2011-03-09 | 2012-09-19 | 海洋王照明科技股份有限公司 | White light electroluminescent device and preparation method thereof |
CN102683599A (en) * | 2011-03-09 | 2012-09-19 | 海洋王照明科技股份有限公司 | Luminescent layer of white-light electroluminescent device and preparation method and application of luminescent layer |
CN102683597B (en) * | 2011-03-09 | 2015-06-03 | 海洋王照明科技股份有限公司 | White light electroluminescent device and preparation method thereof |
CN102683599B (en) * | 2011-03-09 | 2015-07-29 | 海洋王照明科技股份有限公司 | The luminescent layer of white-light electroluminescence device, its preparation method and application |
CN106646994A (en) * | 2016-12-13 | 2017-05-10 | 深圳市华星光电技术有限公司 | Polarizer, liquid crystal display and method for preparing polarizer |
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