CN101299896A - Color light emitting device - Google Patents
Color light emitting device Download PDFInfo
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- CN101299896A CN101299896A CNA2008101251872A CN200810125187A CN101299896A CN 101299896 A CN101299896 A CN 101299896A CN A2008101251872 A CNA2008101251872 A CN A2008101251872A CN 200810125187 A CN200810125187 A CN 200810125187A CN 101299896 A CN101299896 A CN 101299896A
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Images
Landscapes
- Electroluminescent Light Sources (AREA)
Abstract
The organic EL element (200) emits light containing a blue component (B) and a component (theta) having a peak at 500-600 nm. The red conversion member (360) has an excitation spectrum having a peak at 500 to 600 nm. The red conversion member (360) receives light emitted from the organic EL element (200) and converts the blue component (B) into the red component (R). In this case, the component (θ) having a peak at 500 to 600nm is strongly excited, and thus the luminance of the red component (R) is increased. Therefore, the white balance of three colors is improved. Thus, a color light emitting device (100) capable of improving the intensity of red light can be provided.
Description
The application is that international filing date is that March 7, international application no in 2003 are that PCT/JP03/02708, denomination of invention are divided an application for " color light emitting device ".
Technical field
The present invention relates to color light emitting device, especially relate to and be suitable for that color monitor is used, as to use organic electroluminescent device (below, claim organic EL) color light emitting device.
Technical background
Make the color display element that the display of the color light emitting device of TV etc. or computer, portable phone etc. is used for the light-emitting component that uses organic EL etc., must form turn blue, the pixel of green, red primaries.As manufacture method three kinds of following methods are arranged roughly, following problem is arranged respectively.
A. three look branches are coated with method
Be the method for blue, green, red each light-emitting component difference assortment on drawing.
This occasion, the life-span difference of 3 kinds of corresponding pixels of color, especially because life-span of red illuminating material is short, efficient is low, so be difficult to obtain expeditiously and white balance through the time variation little color light emitting device.
The combination of B. white organic EL and colour filter
Be to use colour filter, all trichromaticly take out blue, green, red method respectively white luminous from containing.
Here so-called " colour filter " is a part that intercepts the luminous composition of organic EL, only sees through the filter of desired luminous composition.Obtain high efficiency and the good color light emitting device of color balance with this formation, the white organic EL that realization contains the luminous composition of 3 primary colors well balancedly is essential.Yet, with respect to blue composition, green composition, contain to high strength red composition, because element constitutes very complexity, so be difficult to make the good device of reproducibility.
The combination (colour switching method) of C. blue (or blue-green) organic EL and colour switching member
Be by utilizing the colour switching member that blueness luminous is transformed into the method that green, redness have been sent 3 primitive color lights.
To obtain high efficiency and the good color light emitting device of color balance with this formation, develop the luminous colour switching member of conversion organic EL expeditiously, especially develop red conversion member and develop high efficiency blueness (or blue-green) organic EL and be absolutely necessary.
Figure 16 is the ideograph that adopts the color light emitting device of colour switching method in the past.Symbol is represented respectively among the figure: 10-color light emitting device, 12-blue pixel, 14-green pixel, 16-red pixel, 20-the turn blue organic EL of coloured light, the look conversion member that 30-contains fluorchrome.Fluorchrome is to be excited the light time that wavelength is set in irradiation, this light is transformed into the longer fluorescence of wavelength.Look conversion member 30 contains green conversion member 34 and red conversion member 36, and green conversion member 34 is transformed into green light to the blue light that organic EL 20 sends, and red conversion member 36 is transformed into red light to blue light.That is, the blue light that organic EL 20 sends is through look conversion member 30, is transformed into green light, red light by a part wherein, obtains sending indigo plant, green, red trichromatic pixel, forms color light emitting device.
Yet, the color light emitting device of this formation, when blue light is transformed into red light, can differ from big, conversion efficiency is low when being transformed into green light than blue light.That is the strength ratio blue light and the low problem of green light intensity that, have red light.
Therefore,, improve red light intensity, proposed several schemes in order to improve red conversion efficiency.
For example, put down in writing in the Te Kaiping 10-039791 communique area ratio of each red, blue and green color pixel differed from one another, especially, the area that increases red pixel than and improve red light intensity, promptly improve red brightness, keep the technology of white balance for a long time.Yet this technology is owing to differ from one another the area ratio of each color pixel, the configuration figure complexity of pixel.
In addition, the driving voltage of the organic EL that makes red pixel or drive current have been explored than other height, the high method of brightness of the organic EL of this redness brightness ratio green pixel and blue pixel.
Yet when only improving red pixel brightness, the deterioration that has the pairing organic EL of red pixel only increases, and the result exists can not keep the high problem of red pixel brightness.
Therefore,, carried out all improvement so far for making blue organic EL high efficiency, but in theory near the limit.
Red conversion member is the luminous composition that absorbs organic EL, make the such fluorchrome of rubescent look fluorescence be dispersed in the member of transparent binder material, but the fluorchrome and the dissatisfied simultaneously reliability to conversion efficiency and environment (heat or light) of the combination of adhesive material known to the people now.Therefore, want to realize high conversion efficiency, have to become, guarantee that high reliability has to reduce conversion efficiency the unsettled material system of environment.
In addition, red conversion member deterioration exerts an influence to the color stability of color light emitting device integral body.
To fully realize the colorrendering quality of color light emitting device, then use and remove the colour filter that the luminous composition of not wanted that influences colorimetric purity is used, this method is owing to the luminous efficiency of organic EL, the conversion efficiency of look conversion member all have gauge, so removing the light time of not wanted in order to improve colorimetric purity with colour filter, having to become extremely low as the luminous efficiency of color light emitting device.
The present invention is the research of finishing in view of above-mentioned condition, its objective is to provide the elemental area ratio is differed from one another, and suppresses the deterioration bias of organic EL, can improve the color light emitting device of red light intensity.
In addition, the object of the invention provides colorimetric purity, luminous efficiency is good, and is long-life color light emitting device.
The result that present inventors concentrate on studies finds that the peak of the luminous spectrum by making organic EL is consistent with the peak of the excitation spectrum of red conversion member, can improve red light intensity, thereby finish the present invention.
In addition, present inventors also find, send by making that to have luminous strength ratio be 9: 1~5: 5 blue composition becomes beam split with yellow~redness light-emitting component and look conversion component composition, can improve colorimetric purity, the luminous efficiency of color light emitting device, and can improve the life-span, thereby finish the present invention.
Summary of the invention
According to the 1st scheme of the present invention, color light emitting device is provided, has organic electroluminescent device, blue pixel, green pixel and red pixel, and at least one peak of the excitation spectrum of red conversion member is consistent with the peak outside the blue domain of organic electroluminescent device.
Above-mentioned organic electroluminescent device sends has the light that the luminescent spectrum at peak is arranged outside blue domain and blue domain;
Blue pixel contains the blue color filter that blue light is passed through.
Green pixel contains at least a portion that organic electroluminescent device is luminous and is transformed into the green conversion member of green light and the green color filter that green light is passed through.
Red pixel contains at least a portion that organic electroluminescent device is luminous and is transformed into the red conversion member of red light and the red color filter that red light is passed through.
Here, the wavelength at the so-called consistent peak that is meant curve of spectrum maximum is consistent basically each other.That is, be meant the long difference of each spike 10nm with interior, preferably in the 5nm.
Like this, according to the present invention,, therefore can improve ratio to the luminous contributive useful photon number of red conversion member owing to the peak of the luminescent spectrum that makes organic EL is consistent with the peak of the excitation spectrum of the look conversion member of red pixel.The result can improve the luminous intensity of red pixel, promptly can improve brightness.
As a result, even being added uniform driving voltage, each color pixel also can improve red color intensity.In addition, the uneven deterioration of organic EL can be suppressed, high red color intensity can be kept for a long time.In addition, do not make the brightness long lifetime that pixel graphics is complicated, can realize color light emitting device.
In addition, color light emitting device of the present invention is because of possessing filter of all kinds, because colour filter of all kinds intercepts colour content not, so reproducibility height of all kinds.
The peak intensity of the blue domain of preferred luminescent spectrum and the strength ratio at the peak beyond the blue domain are 9: 1~5: 5.
The peak intensity ratio was greater than 9: 1 o'clock, and red luminous intensity reduces, and can not guarantee the white balance of color light emitting device sometimes.
And peak intensity is than less than 5: 5 o'clock, though red luminous intensity is big, because the luminous intensity of blue pixel relatively diminishes, so can not guarantee the white balance of color light emitting device sometimes.
Therefore, if make peak intensity than 9: 1~5: 5 scope, then the luminous intensity of red pixel (brightness) relatively increases, and can guarantee the white balance of color light emitting device more.
The peak of preferred blue domain is the peak that is positioned at 400~500nm, and the peak beyond the blue domain is the peak that is positioned at 500~600nm.
More preferably the peak of blue domain is that 430~490nm, particularly preferred peak are 440~480nm.
In addition, the peak beyond the preferred blue domain is that 520~570nm, particularly preferred peak are 530~560nm.
Not only further improve the luminosity of red pixel with such peak, and available identity element improves blue pixel, the luminosity of green pixel, colorimetric purity, can guarantee white balance.
But,, the above peak of 570nm can be arranged also if satisfy aforementioned essential condition.
According to the 2nd scheme of the present invention, be to send to have blue composition becomes beam split with yellow~redness light-emitting component, the ratio that the luminous intensity that comprises the blue composition that light-emitting component sends and the luminous intensity of yellow~red composition are provided be 9: 1~5: 5 light-emitting component and accept light that light-emitting component sends after send the color light emitting device of blueness, green, red blue conversion member, green conversion member, red conversion member respectively.
Preferably, with respect to the brightness of light that light-emitting component sends, the luminance transformation efficient of green conversion member is more than 50%.
Preferably, with respect to the brightness of light that light-emitting component sends, the luminance transformation efficient of red conversion member is more than 10%.
Preferably, red conversion member is made of the direction of taking out along light, the part back that absorbs light that light-emitting component sends, the laminated body of fluorescence conversion layer and the color-filter layer of the unwanted light of obstruct of sending long wavelength's fluorescence more, and the transmitance of colour filter under wavelength 600nm is below 60%.
Preferably, green conversion member by along the light removing direction, absorb light that light-emitting component sends part back, send more that the fluorescence conversion layer of long wavelength's fluorescence does not need the laminated body of the color-filter layer of light to constitute with obstruct, the transmitance of colour filter under wavelength 540nm is more than 80%.
Preferred light-emitting component is the organic electroluminescent light-emitting component.
The simple declaration of accompanying drawing
Fig. 1 is the ideograph of an embodiment of expression color light emitting device of the present invention.
That Fig. 2 (A) expression is used to simulate, as the luminescent spectrum of the test portion 1~7 of organic EL, Fig. 2 (B) is the curve chart of the excitation spectrum of green conversion member of expression and red conversion member.
Fig. 3 (A) and the curve that (B) is the emitting red light brightness analog result of expression red pixel.
Fig. 4 is the XYZ chromaticity diagram of expression analog result.
Fig. 5 is the ideograph of the color light emitting device of expression other embodiment of the present invention.
Fig. 6 is expression embodiment 1 and the curve of the excitation spectrum of the red conversion member of comparative example 2.
Fig. 7 is the XYZ chromaticity diagram of the organic EL light emitting device of embodiment 1~4 and comparative example 1~2.
Fig. 8 is the ideograph of the color light emitting device of expression embodiment 5 making.
Fig. 9 (A) is that expression adopts micro-spectral to measure the inner transmitance result's of BCF1 figure figure.
Fig. 9 (B) is that expression adopts micro-spectral to measure the inner transmitance result's of GCF1 figure figure.
Fig. 9 (C) is that expression adopts micro-spectral to measure the inner transmitance result's of RCF1 figure figure.
Fig. 9 (D) is that expression adopts micro-spectral to measure the inner transmitance result's of BCF2 figure figure.
Fig. 9 (E) is that expression adopts micro-spectral to measure the inner percent of pass result's of GCF2 figure figure.
Fig. 9 (F) is that expression adopts micro-spectral to measure the inner transmitance result's of RCF2 figure figure.
Figure 10 is that expression employing micro-spectral measures the figure to green fluorescence transform layer or the fluorescence spectrum of red fluorescence conversion laminar surface irradiation excitation wavelength 430nm light time.
Figure 11 is the figure of luminescent spectrum of the monochromatic light-emitting device of expression embodiment 5~6.
Figure 12 is the figure of luminescent spectrum of the monochromatic light-emitting device of expression embodiment 7~8.
Figure 13 is the figure of luminescent spectrum of the monochromatic light-emitting device of expression comparative example 3~5.
Figure 14 is the figure of luminescent spectrum of the monochromatic light-emitting device of expression embodiment 9~11 and comparative example 6.
Figure 15 be the panchromatic light-emitting device of expression brightness and monochromatic light-emitting device brightness ratio Ired/Imono through the time variation curve.
Figure 16 is the ideograph of the color light emitting device of expression conventional art.
Embodiment
Below, each structural elements is described.
(1) organic EL
In the organic EL, except luminescent layer, also can use hole injection layer, electron injecting layer, organic semiconductor layer, electronic shield layer as required, adhere to and improve layer etc.
Enumerate the typical structure example of organic EL.
Anode/luminescent layer/negative electrode
Anode/hole injection layer/luminescent layer/negative electrode
Anode/luminescent layer/electron injecting layer/negative electrode
Anode/hole injection layer/luminescent layer/electron injecting layer/negative electrode
Anode/organic semiconductor layer/luminescent layer/negative electrode
Anode/organic semiconductor layer/electronic shield layer/luminescent layer/negative electrode
Anode/hole injection layer/luminescent layer/adhere to and improve layer/negative electrode
(i) anode
Anode preferably uses metal, alloy, conductive compound or these the mixture of work function big (more than the 4eV) to be electrode substance.As the concrete example of kind electrode material, can enumerate metal, CuI, ITO, the SnO of Au etc.
2, ZnO, IZO etc. the conductive clear material.
(ii) luminescent layer
The luminescent material of organic EL mainly is an organic compound, particularly, and the compound that can be listed below according to desired tone.
At first, by the occasion of ultraviolet territory acquisition violet light, can enumerate the compound of following chemical formula (1) expression.
In this general formula, X represents the compound shown in the following chemical formula (2).
In the formula, n is 2,3,4 or 5.In addition, Y represents the compound shown in the following chemical formula (3).
The phenyl of above-claimed cpd, phenylene, naphthyl can be C
1~C
4The base of independent or a plurality of replacements such as alkyl, alkoxyl, hydroxyl, sulfonyl, carbonyl, amino, dimethylamino or diphenylamino.In addition, these also can be combined with one another to saturated 5 Yuans rings, 6 Yuans rings.In addition, phenyl, phenylene, naphthyl can carry out bonding in contraposition, but good for forming level and smooth vapor-deposited film preferred combination.The compound of Yi Xia chemical formula (4)~(8) expression specifically.Especially preferably right-the tetraphenyl derivative, right-the pentaphene radical derivative.
Right-tetraphenyl (PQP)
3,5,3 " " ', 5 " " '-tetra-tert hexaphenyl (TBS)
In addition, in order from blueness, to obtain the luminous of green, for example, can enumerate fluorescent whitening agent, metal chelating combination hydroxyquinoline compounds, the styryl benzene compounds of benzothiazole system, benzimidazole system, benzoxazole system etc.
If enumerate compound name particularly, for example, can enumerate the spy and open the disclosed compound of clear 59-194393 communique.As typical example, can enumerate the fluorescent whitening agent of benzoxazole system, benzothiazole system, benzimidazole system etc.
In addition, other useful compounds are set forth in Chemistry of Synthetic Dyes 1971,628-637 page or leaf and 640 pages.
As the chelating hydroxyquinoline compounds, for example, can use the spy to open the disclosed compound of clear 63-295695 communique.As its typical example, the oxine that can enumerate three (oxine) ammonium (below, be called for short Alq) etc. is metal complex or epoxy San Jia Ben oxazolidinedione two lithiums.
In addition, as the styryl benzene compound, for example, can use disclosed compound in No. 0319881 specification of European patent or No. 0373582 specification of European patent.
Can also use the spy to open the material of the disclosed diphenylethyllene pyrazines derivatives of flat 2-252793 communique as luminescent layer.
As other examples, for example, also can use the material of No. 0387715 disclosed many phenyl based compound of specification of European patent as luminescent layer.
In addition, except above-mentioned fluorescent whitening agent, metal chelating combination hydroxyquinoline compounds, and styryl benzene compounds etc., for example, also can use
12-phthalein and week are because of ketone (J.Appl.Phys., the 27th volume, L713 (1988)).
1,4-diphenyl-1,3-butadiene
1,1,4,4-tetraphenyl-1,3-butadiene (above-mentioned document, Appl.Phys.Let t., the 56th volume, L 799 (nineteen ninety)).
Naphthalimide derivative (spy opens flat 2-305886 communique)
Perylene derivative (spy opens flat 2-189890 communique)
Oxadiazole derivative (spy opens flat 2-216791 communique or the 38th applied physics concerns Gong Kai De oxadiazole derivative such as creek field in the Colaesce lecture)
Aldazine derivative (spy opens flat 2-220393 communique)
Pyrazines derivatives (spy opens flat 2-220394 communique)
Cyclopentadiene derivant (spy opens flat 2-289675 communique)
Pyrrolopyrrole derivatives (spy opens flat 2-296891 communique)
Styryl amine derivative (Appl.Phys.Let t., the 56th volume, L799 (nineteen ninety)), coumarin series compounds (spy opens flat 2-191694 communique).
International open communique WO 90/13148 or Appl.Phys.Lett.vol 58,18, p1982 described macromolecular compounds such as (1991) are as the material of luminescent layer.
Among the present invention,, especially preferably use aromatic series two methine based compounds (No. 0388768 specification of European patent or spy open the disclosed compound of flat 3-231970 communique) as the material of luminescent layer.As concrete example, can enumerate
4,4 '-two (2,2-di-tert-butyl-phenyl vinyl) biphenyl (following, abbreviation DTBPBBi)
4,4 '-two (2, the 2-diphenylacetylene) biphenyl (below, be called for short DPVBi) etc., and these derivative.
In addition, can enumerate the spy and open the described general formula of flat 5-258862 communique (Rs-Q)
2The compound that-Al-O-L represents.
(in the above-mentioned formula, L contains the C that phenyl moiety forms
6~C
24Hydrocarbon, O-L be that phenates part, Q represent that 8-quinolinium part, Rs represent that 2 on the 8-quinolinium ring selected for use replaces 8-quinolinium part and is combined into sterically hindered around the aluminium atom).
Particularly, can enumerate
(bis (2-methyl-8-quinolinolate) is aluminum (III) (to call PC-7 in the following text) (para-phenylphenolate) for two (2-methyl-oxine) (right-phenylphenol) aluminium
Two (2-methyl-oxine) (1-naphthols) aluminium bis (2-methyl-8-quinolinolate) are aluminum (III) (to call PC-17 in the following text) etc. (para-phenylphenolate).
In addition, can enumerate the spy and open in the flat 6-9953 communique method of using dopant to obtain high efficiency blueness and green mixed luminescence.This occasion can be enumerated above-mentioned described luminescent material as main body, can enumerate as dopant, and is blue to green hyperfluorescence pigment, for example coumarin series or with the identical fluorchrome of luminescent material that uses as above-mentioned described main body.
Particularly, can enumerate the luminescent material of diphenylethyllene arlydene skeleton as main body, particularly preferred example such as DPVBi, the dopant of using as blue light-emitting, can enumerate the inferior virtue of diphenyl amino vinyl, particularly preferred example as, N, N-diphenyl amino vinyl benzene (DPAVB).
In addition, except hanging down molecular material (number-average molecular weight is less than 10000) as the aforementioned, the also preferred macromolecular material (number-average molecular weight is more than 10000) that uses.
Particularly, can enumerate inferior ethene (polyarylenevinylenes) of poly (arylene ether) and derivative (PPV) thereof, poly-fluorenes and derivative thereof, contain fluorene copolymer.
Do not have particular restriction as obtaining white luminous luminescent layer, can enumerate following structures.
1. stipulate each layer energy level of organic EL multilayer structure making, utilize the tunnel to inject and make it luminous structure (No. 0390551 communique of European publication)
2. use and the 1. identical display unit of utilizing the tunnel injection the white luminous display unit described in the embodiment (spy opens flat 3-230584 communique)
The luminescent layer (spy opens flat 2-220390 communique and the spy opens flat 2-216790 communique) of the two-layer structure described in 3. patent application discloses
4. luminescent layer is divided into the structure (spy opens flat 4-51491 communique) that multilayer is made of the different material of sending optical wavelength
5. ((480nm~580nm) is compound, contain the structure (spy opens flat 6-207170 communique) of the structure of red-emitting phosphors again for fluorescence peak 380nm~480nm) and green emitting body to make blue-light emitting body
6. have blue light-emitting layer and contain the field that blue-fluorescence pigment, green light emitting layer contain the red fluorescence pigment, contain the device (spy opens flat 7-142169 communique) of the structure of green-emitting phosphor again
Wherein, the preferred structure of using 5..
The dopant example (lycid alkene) that jaundice coloured light is used
The dopant example that rubescent look or orange-colored light are used
Lumogen F Hong thiophene evil hexazinone
(dicyano methylene pyrans)
In addition, the present invention to have the luminescent spectrum at peak or obtains the peak at blue domain and 500~600nm at blue domain and green territory in order to obtain, above-mentioned except using " obtaining the compound of green emitting " from blueness, " compound that obtains violet light from the ultraviolet territory " and above-mentioned " obtaining white luminous compound " can also be used, the hole injection layer of the following stated or the compound of electron injecting layer can also be used as required.
In order to regulate the peak intensity in blue domain and green territory, for example, the luminescent layer that the compound of sending out near ultraviolet~bluish-green coloured light is mixed its ratio of suitable adjusting with the compound of green-emitting~red light and form, perhaps become suitable regulated contain send out near ultraviolet~blue-green optical compounds layer and the multilayer luminescent layer thickness that contains green-emitting~red light compound layer and/or that suitably regulated the ratio of aforesaid compound in each layer.
(iii) hole injection layer
As the hole-injecting material that constitutes hole injection layer, can enumerate triazole derivative, oxadiazole derivative, imdazole derivatives, poly-aryl chain alkane derivatives, pyrazoline derivative, pyrazolone derivative, phenylenediamine derivative, arylamine derivative, amino substituted aryl acryloyl arene derivatives, oxazole derivative, the composition of one or two or more kinds of fluorenone derivatives, hydazone derivative, styryl anthracene derivant, stilbene derivative, silazane derivative, polysilane, aniline based copolymer, conducting polymer oligomer (preferably thiophene oligomers) etc.
(iv) electron injecting layer
As the electronics injection material that constitutes electron injecting layer, can enumerate one or two or more kinds combination of three (oxine) aluminium, three (oxine) gallium, two (10-hydroxy benzo [h] quinoline) beryllium, triazole derivative, oxadiazole derivative, pyrrolotriazine derivatives, perylene derivative, quinoline, quinoxaline derivant, diphenyl benzene quinone derivative, nitro substituted fluorene ketone derivatives, thiapyran dioxide derivative etc.
In addition, preferably in these electronics injection materials, add the alkali metal of alkali metal as dopant, alkaline-earth metal, rare earth metal, alkali cpd, alkali earth cpd, rare-earth compounds, organic compound coordination.
(V) negative electrode
Can use metal, alloy, conductive compound and these the mixture of work function little (4eV is following) as electrode substance as negative electrode.
As the concrete example of this class electrode substance, can enumerate sodium, sodium-potassium-sodium alloy, magnesium, lithium, magnesium-silver alloy, aluminium/aluminium oxide (Al
2O
3), more than a kind or 2 kinds of aluminum-copper-lithium alloys, indium, rare earth metal etc.
(2) colour switching member
As the colour switching member, for example can use fluorchrome and resin, or only use fluorchrome.
Be transformed into the fluorchrome of the coloured light that turns blue as black light~ultraviolet light that organic EL is sent, for example, can enumerate 1, two (2-methyl styrene base) benzene of 4-(below, title Bis-MSB), trans-4, the Stilbene of 4 '-diphenyl Stilbene (below, claim DPS) etc. is more than a kind or 2 kinds of the coumarin series pigment of pigment, 7-hydroxy-4-methylcoumarin (to call cumarin 4 in the following text) etc. etc.
Be transformed into the fluorchrome of glow green as the blueness that organic EL is sent~bluish-green coloured light, for example, can enumerate 2,3,5,6-1H, 4H-tetrahydrochysene-8-trifluoromethyl quinolizine ketone (9,9a, 1-gh) cumarin (below, claim cumarin 153), 3-(2 '-benzothiazolyl)-7-diethyl amino coumarin (below, claim coumarin 6), 3-(2 '-benzimidazolyl)-7-N, the cumarin pigment of N-diethyl amino coumarin (below, claim cumarin 7) etc., basic yellow 51, or solvent yellow 11, more than a kind or 2 kinds of the naphthalimide pigment of solvent yellow 116 grades etc.
Relevant blueness~green light that organic EL is sent is transformed into to be sent out orange~fluorchrome of red light, for example, can enumerate 4-dicyano methylene-2-methyl-6-(right-the dimethylamino styryl)-4H-pyrans (below, claim DCM) etc. the match peacefulness be that the pyridine of pigment, 1-ethyl-2-(4-(right-dimethylamino phenyl)-1,3-butadiene base)-pyridine-perchlorinate thing (to call pyridine 1 in the following text) etc. is that the rhodamine of pigment, rhodamine B, rhodamine 6G, alkali violet 11:1 etc. is more than a kind or 2 kinds of pigment or its his oxazine system etc.
As the fluorchrome that is used for green conversion member, for example, can according to organic EL send out photochromic, near ultraviolet~purple light above-mentioned, that organic EL is sent is transformed into the fluorchrome of the coloured light that turns blue and the blueness that organic EL sends~bluish-green coloured light becomes the fluorchrome of glow green, mixes individually or suitably respectively and use.
In addition, as the fluorchrome that is used for red conversion member, for example, can according to organic EL send photochromic, with above-mentioned, near ultraviolet~purple light that organic EL is sent is transformed into the fluorchrome of the coloured light that turns blue, the blueness that organic EL sends~bluish-green coloured light is transformed into the fluorchrome of glow green, and blueness~green light that organic EL is sent is transformed into to be sent out orange~fluorchrome of red light, mixes individually or suitably respectively and uses.
In addition, if various dyestuff (direct dyes, acid dyes, basic-dyeable fibre, disperse dyes etc.) has fluorescence also can use.
In addition, also can sneak into polymethacrylates, polyvinyl chloride, vinyl chloride-vinyl acetate copolymer, alkyd resins, aromatic sulfonamide resin, Lauxite, melmac to fluorchrome in advance, carry out the fluorchrome of pigmentation in the pigmental resin of benzoguanamine resin etc.
The material of (visible light transmissivity is more than 50%) of adhesive resin preferably clear.For example, can enumerate polymethyl methacrylate, polyacrylate, Merlon, polyvinyl alcohol, polyvinylpyrrolidone, hydroxyethylcellulose, the transparent resin more than a kind or 2 kinds (macromolecule) of carboxymethyl cellulose etc.
In addition, for the colour switching member is carried out configured separate planely, optionally can adopt photolithographic photoresist.For example, can enumerate the light-cured type anticorrosive additive material of the sex ethylene bases that respond such as acrylic acid series, metha crylic, poly-vinyl cinnamate system, cycloolefin rubber system.In addition, adopt the occasion of print process, ink jet method, the printing-ink of optional use transparent resin (medium).For example, can use Corvic, melmac, phenolic resins, alkyd resins, epoxy resin, polyurethane resin, mylar, maleic acid resin, the monomer of polyamide, oligomer, polymer can also use the transparent resin of polymethyl methacrylate, polyacrylate, Merlon, polyvinyl alcohol, polyvinylpyrrolidone, hydroxyethylcellulose, carboxymethyl cellulose etc.
Here, the excitation spectrum of especially red conversion member, for the peak is arranged in blue domain, the black light~bluish-green coloured light that can select in the aforementioned fluorchrome organic EL is sent is transformed into the fluorchrome of the coloured light~burn red that turns blue.
That is, can be chosen in the fluorchrome that 400~500nm has absworption peak.
In addition, the excitation spectrum of red conversion member, for the peak is arranged beyond the blue domain, can be in aforementioned fluorchrome, select blueness~orange-colored light that organic EL sends is transformed into and send out orange~fluorchrome of red light.
That is, can be chosen in the fluorchrome that 500~600nm has absworption peak.
(3) colour filter
As the material of colour filter, for example, can enumerate following pigment or this pigment be dissolved or dispersed solids state material in adhesive resin.
1. red (R) pigment:
Perylene pigment, mordant pigment, azo pigment, quinoline a word used for translation ketone series pigments, anthraquione pigmentss, anthracene series pigments, isoindoline series pigments, isoindoline ketone series pigments, DPP pigment (diketo-pyrrolo pyrrole pigments) and these mixture.
2. green (G) pigment:
The polysubstituted phthualocyanine pigment of halogen, the polysubstituted copper phthalocyanine series pigments of halogen, triphenyl methane are alkaline metachromia, isoindoline series pigments, isoindoline ketone series pigments and these mixture.
3. blue (B) pigment:
Copper phthalocyanine series pigments, indanthrene series pigments, indophenols series pigments, the peaceful series pigments, dioxazine series pigments of plug and these mixture.
As adhesive resin, preferably use above-mentioned material.
In addition, for plane ground of colour filter configured separate, selection can be adopted photolithographic above-mentioned photoresist.In addition, adopt the occasion of print process, ink jet method, select to use the printing-ink (medium) of above-mentioned transparent resin.
In the above-mentioned colour filter, especially preferably suitably will mix use with azo pigment, isoindoline ketone pigment as red pigments De perylene dye, anthraquinone pigment, DPP pigment, can obtain red territory (more than the wavelength 600nm) transmitance height, blue domain (400~500nm), the green territory (color light emitting device that 500~600nm) transmitance is little, red purity is high.
[embodiment 1]
Below, with reference to accompanying drawing, embodiment of the present invention are described.
Fig. 1 is the ideograph of the color light emitting device of a kind of embodiment of the present invention.Symbol is represented respectively among the figure: 100-color light emitting device, 200-emission is contained in blue domain the composition at peak (blue composition) is arranged that (B) and beyond blue domain (for example 500~600nm) have the organic EL of composition (θ) light at peak, colour switching member, the 400-colour filter that 300-contains fluorchrome.In addition.120 expression blue pixel, 140 expression green pixels, 160 expression red pixels.
After colour switching member 300 comprises the light of accepting organic EL emission, absorb blue composition (the luminous composition of wavelength 400~500nm) and send green composition (the green conversion member 340 of 500~600nm) fluorescence and accept the light of organic EL emission after, absorb blue composition~green composition and launch the red conversion member 360 of red composition (more than the 600nm) fluorescence.
The excitation spectrum of red conversion member 360 has the peak at 500~600nm.(in addition, also the peak can be arranged) at 400~500nm
Below the running of light-emitting device is described.
Contain blue composition (B) and the light that the composition (θ) at peak is arranged at 500~600nm from organic EL 200 emissions.The θ composition mainly is equivalent to green composition.
In the blue pixel, this light directly sees through colour switching member 300, and blue color filter 420 intercepts the θ composition basically.Therefore, send blue light from blue color filter 420.But the θ composition is not intercepted by blue color filter fully sometimes, on chromatic diagram (Fig. 4), as blueness, can obtain the colourity of indigo plant (the Bluish Purple-Greenish Blue) scope of slightly blue purple~slightly green.
In the green pixel, green conversion member 340 absorbs the fluorescence that blue composition sends green composition.Green conversion member 340 sees through θ composition former state.The θ composition mainly is equivalent to green composition, so green color filter 440 is by green composition in the θ composition and the green fluorescence that is become the branch conversion by blueness.Therefore, from green color filter 440, send green light.
In the red pixel, send the fluorescence of red composition behind red conversion member 360 absorption blue composition~green compositions.At this moment, the excitation spectrum of red conversion member 360 has the peak at 500~600nm, so the θ composition activates red conversion member 360, improves the intensity of red ingredient fluorescence.Then, red color filter 460 intercepts the θ composition.Therefore, send strong red light from red color filter 460.
In addition, the blue composition (B) of organic EL or θ composition see through green conversion member 340, red conversion member 360 sometimes, but are all intercepted by green or red color filter basically.Though do not intercepted fully sometimes by green or red color filter, but on chromatic diagram (Fig. 4), green-yellowish green (Green-Yellow Green) can be obtained as green, the colourity of purple red (Orange~Purplish Red) scope of orange~slightly can be obtained as redness, so also can.
In addition, color light emitting device has last taking-up type and following taking-up type.The color light emitting device of following taking-up type is placement substrate (not having diagram), colour filter 400, colour switching member 300 and organic EL 200 in order, takes out light from substrate-side.Last taking-up type color light emitting device, placement substrate, organic EL 200, colour switching member 300 and colour filter 400 in order are from taking out light with the substrate opposition side.
In addition, in this embodiment, organic EL is as a shared component description in each pixel, but also can separately form in each pixel.
[embodiment 2] simulation
In addition, obtain by simulation and have in the color light emitting device shown in Figure 1 in blue domain and white balance luminous spectrum, organic EL that the peak is arranged at 500~600nm (balance of the luminous intensity of the red, green, blue look when white shows).
(analogy method)
Analogy method used herein is not a color light emitting device practical measurement shown in Figure 1, but adopt the method ask the luminescent spectrum that takes out from colour filter, be the method that the present inventor invents.Detailed content has been put down in writing among the special hope 2000-360187.
According to this method, the luminescent spectrum WL (λ) of the light that takes out is obtained by following formula from colour filter.
WL(λ)={w(λ)·l0
-Abs(λ)+lu(λ)·F/F
0}·T
CF(λ)
F/F
0={∫λ·w(λ)·EX(λ)dλ}/{∫λ·el(λ)·EX(λ)dλ}
In the formula, F
0When table uses reference light source as organic EL, help the luminous useful photon number of colour switching member.
When F represents as the light source beyond the organic EL use reference light source, help the luminous useful photon number of colour switching member.
λ represents wavelength.
The standardization luminous spectrum of the light source beyond W (λ) the expression reference light source.
The absorption spectrum of Abs (λ) expression colour switching member.
The standardized standardization spectrum of pure luminescent spectrum that the luminescent spectrum with reference light source when reference light source is used in lu (λ) expression sends the colour switching member.
The excitation spectrum of EX (λ) expression colour switching member.
El (λ) expression is with the standardized spectrum of the luminescent spectrum of reference light source.
T
CF(λ) optical transmission spectra of expression colour filter.
In addition, the brightness L of color light emitting device is obtained by following formula.
L=L
0·η
η={∫WL(λ)·y(λ)dλ}/{∫el(λ)·y(λ)dλ}
In the formula, η represents luminance transformation efficient.
L
oThe brightness of expression reference light source.
Y (λ) is illustrated in the y-(λ) of the isochrome function in the XYZ coloring system of CIE1931.
In addition, (X Y) is obtained by following formula the cie color coordinate of color light emitting device.
X={∫WL(λ)·x(λ)dλ}/{∫WL(λ)·x(λ)dλ+∫WL(λ)·y(λ)dλ+∫WL(λ)·z(λ)dλ}
Y={∫WL(λ)·y(λ)dλ}/{∫WL(λ)·x(λ)dλ+∫WL(λ)·y(λ)dλ+∫WL(λ)·z(λ)dλ}
In the formula, the x-(λ) and z-(λ) of the isochrome function in the XYZ coloring system of x (λ) and z (λ) expression CLE1931.
In addition, in the color light emitting device, the cie color coordinate of the formed white point of trichromatic combination of pixels (Xh Yh) is obtained by following formula.
At first, obtain brightness L respectively by above-mentioned formula
R, l
GAnd L
B, ask chromaticity coordinates (R more respectively
x, R
y), (G
x, G
y) and (B
x, B
y), by these brightness and chromaticity coordinates, adopt following formula to ask the chromaticity coordinates (Xh Yh) of white point.
Xh={L
R·R
x/R
y+L
G·G
x/G
y+L
B·B
x/B
y}/{L
R/R
y+L
G/G
y+L
B/B
y}
Yh={L
R+L
G+L
B}/{L
R/R
y+L
G/G
y+L
B/B
y}
(analog result)
Setting has the organic EL that the emission spectrum at peak is arranged at blue domain and 500~600nm.Utilize of the white balance (the luminous intensity balance of red, green, blue look during white demonstration) of the peak intensity of blue composition that simulation obtains this luminescent spectrum and 500~600nm composition then than the test portion 1~7 that changed in the scope at 10: 0~4: 6.
At first, in Fig. 2 (A), use curve I
0~I
6The luminescent spectrum of the organic EL of expression test portion 1~7.
These curves I
0~I
6The peak intensity ratio of representing blue composition and 500~600nm composition respectively is the luminescent spectrum of 10: 0,9: 1,8: 2,7: 3,6: 4,5: 5 and 4: 6 o'clock.Therefore, be curve I
0The emission spectrum of expression only has the unimodal luminescent spectrum in blue wavelength territory.And, remaining curve I
1~I
6Luminescent spectrum, the peak appears respectively at blue domain and 500~600nm.
Among Fig. 2 (A), express the long 470nm of being of spike of blue composition, the spike of 500~600nm composition is long to be 535nm.The half peak breadth at each peak is the luminescent spectrum of the Gaussian Profile of 60nm.
In addition, among Fig. 2 (B), the excitation spectrum of employed green conversion member of simulation and red conversion member is shown.This excitation spectrum be with optical splitter the scope of wavelength 380nm~600nm scan spectral intensity I (λ) that each conversion member measures with the light emitted spectral intensity L (λ) of optical splitter except that the value of trying to achieve.
In the curve chart of Fig. 2 (B), the left ordinate of curve chart is represented the excitation intensity (arbitrary unit) of green conversion member, and right ordinate is represented the excitation intensity (arbitrary unit) of red conversion member, and abscissa is represented wavelength (nm).Curve II
RThe excitation spectrum of representing red conversion member, curve II
GThe excitation spectrum of representing green conversion member.
As curve II
RShown in, the excitation spectrum of red conversion member has near the 470nm respectively and near the peak of the excitation intensity the 535nm.That is, the spike of the luminescent spectrum of organic EL length is long consistent substantially with the spike of the excitation spectrum of red conversion member.
Like this, if each spike of luminescent spectrum and excitation spectrum is long unanimous on the whole each other, then in organic EL luminous, the ratio of giving the luminous useful photon number of red conversion member increases.And because the ratio of useful photon number is if increase, the luminescent spectrum of colour switching member depends on gives the colour switching member luminous useful photon number, so the luminous intensity of red pixel increases.
In addition, Fig. 3 represents the analog result of the luminous high light of red pixel.
The abscissa of Fig. 3 (A) represents that wavelength (nm), ordinate represent luminous intensity.The curve II of Fig. 3 (A)
0~II
6, the emission spectrum of the red pixel of test portion 1~7 o'clock is used in expression.
In addition, the enlarged drawing of part shown in " S " among Fig. 3 (A) has been shown among Fig. 3 (B).Curve II as Fig. 3 (B)
0~II
6Shown in, the sequence number of test portion is big more, and luminous intensity (luminosity) is high more.That is, shown in Fig. 2 (A), the peak intensity of 500~600nm composition and blue composition is higher than more, luminous intensity is high more.The strength ratio of more specifically blue composition and 500~600nm composition is minimum 10: 0 o'clock luminous intensities, along with the peak intensity ratio become 9: 1,8: 2,7: 3,6: 4,5: 5,4: 6, luminous intensity increases.
The peak intensity that this reason estimation is 500~600nm composition is high more, and then the waveform of the excitation spectrum of the approaching more red conversion member of the waveform of the luminescent spectrum of organic EL is given the red conversion member cause that luminous useful photon number increases.
The luminous intensity of red pixel increases, during near the luminous intensity of other colored pixels, can guarantee good white balance.
Here, the use test portion 1~7 that adopts above-mentioned analogy method to obtain the cie color coordinate during as the color light emitting device display white of organic EL etc. the results are shown in table 1.
In the above-mentioned table 1, test portion sequence number (No) is represented on the left end hurdle of table 1, and the peak intensity of blue composition (B) and 500~600nm composition (G) is sequentially represented on its right side.In addition, X value and the Y value of representing the cie color coordinate in " W-x " hurdle of right-hand member and " W-y " hurdle respectively.
Here, this be the results are shown in Fig. 4 (XYZ chromaticity diagram).
As shown in Figure 4,500~600nm composition is more approaching than more with the peak intensity of blue composition, then approaching more good white point (illuminant-C of Fig. 4 or D of the coordinate values of cie color coordinate
65Light source), making colour balance clear improves.
[embodiment 3]
Fig. 5 is the conceptual schema figure of the color light emitting device of other embodiments of modal representation the present invention.Symbol is represented respectively among this figure: 40-color light emitting device, 50-light-emitting component, the blue conversion member of 62-, the green conversion member of 64-, the red conversion member of 66-.
Light-emitting component 50 is by the light of the peak intensity of setting than colour content and the yellow~red composition that turns blue.
After blue conversion member 62 is accepted the light of 50 of light-emitting components, send the light of blue composition, after green conversion member 64 is accepted the light of 50 of light-emitting components, send the light of green composition, after red conversion member 66 is accepted the light of 50 of light-emitting components, send the light of red composition.
Conversion member of all kinds, the colour filter that sees through, improves colorimetric purity of all kinds that is sent the specific light in the light, the fluorchrome that intercepts other fluorescence or specific coloured light by absorption light-emitting component 50 constitutes.
Light-emitting component is so long as become the element of beam split then not have particular restriction by specific peak intensity than the colour content of turning blue with yellow~redness.
So-called blue composition be have spike long preferably at 430~480nm, more preferably in 440~460nm scope, and peak width is the composition of 20~60nm range of spectra.
So-called yellow~red composition is specifically with the color component of the pigment combinations more than at least a kind in yellow, yellowish orange, orange, reddish orange, the redness.
Be preferably to have spike length at 540~610nm, more preferably in 560~590nm scope, half peak breadth is the composition of 40~100nm spectrum.
By containing blue composition and yellow~red composition, when colored issue device was sent out the same brightness white light, the luminous intensity of element can the light-emitting component that only contains blue composition is low to get final product than using.Therefore, because the absorption light quantity of colour switching member is few, thus suppressed the deterioration of colour switching member, as the brightness of the color light emitting device life-span prolongation that partly decays.
The luminous intensity of the blue composition that light-emitting component sends is 9: 1~5: 5, preferably 8: 2~6: 4 with the ratio of the luminous intensity of yellow~red composition.
Strength ratio is lower than 9: 1, when red composition tails off, because the red composition of light-emitting component is few, so in order to adjust the colour balance of color light emitting device, the burden increase of red conversion member, the lost of life of color light emitting device.Strength ratio greater than 5: 5, red composition for a long time, the red enhancing, the colour balance of color light emitting device might destroy.
Here, so-called each luminous intensity is meant the peak intensity value of radiance spectrum.
As such light-emitting component, for example, inorganic EL element, light-emitting diode (LED), organic EL, plasma luminescence element etc. are arranged, preferably organic EL.
Below, describe as the example of light-emitting component using organic EL.
For the ratio of the luminous intensity that makes the blue composition that organic EL sends and the luminous intensity of yellow~red composition is 9: 1~5: 5, pretend for particularly preferred formation be luminescent layer is divided into a plurality of, at least one deck as be doped with contain blue emitting material more than at least a kind the blue light-emitting layer of material play a role, one deck at least in addition is to be doped with any layer that plays yellow~red light emitting layer effect of material more than at least a kind that contains Yellow luminous material or red illuminating material.
As the concrete formation of organic EL in the present embodiment, the structure that can be listed below.
(i) anode/hole injection layer/blue light-emitting layer (doped, blue luminescent material)/Yellow luminous layer (Yellow luminous material mixes)/electron injecting layer/negative electrode
(ii) anode/hole injection layer/Yellow luminous layer (Yellow luminous material mixes)/blue light-emitting layer (doped, blue luminescent material)/electron injecting layer/negative electrode
(iii) anode/hole injection layer/blue light-emitting layer (doped, blue luminescent material)/Yellow luminous layer (Yellow luminous material and blue emitting material mix)/electron injecting layer/negative electrode
(iv) anode/hole injection layer/Yellow luminous layer (Yellow luminous material and blue emitting material mix)/blue light-emitting layer (doped, blue luminescent material)/electron injecting layer/negative electrode
(v) anode/hole injection layer/blue light-emitting layer (doped, blue luminescent material)/red light emitting layer (doping red illuminating material)/electron injecting layer/negative electrode
(vi) anode/hole injection layer/red light emitting layer (doping red illuminating material)/blue light-emitting layer (doped, blue luminescent material)/electron injecting layer/negative electrode
(vii) anode/hole injection layer/blue light-emitting layer (doped, blue luminescent material)/yellow~red light emitting layer (doping yellow~red illuminating material)/electron injecting layer/negative electrode
(viii) anode/hole injection layer/yellow~red light emitting layer (doping yellow~red illuminating material)/blue light-emitting layer (doped, blue luminescent material)/electron injecting layer/negative electrode
(ix) anode/hole injection layer/blue light-emitting layer (doped, blue luminescent material)/yellow~red light emitting layer (doped, blue luminescent material and yellow~red illuminating material)/electron injecting layer/negative electrode
(x) anode/hole injection layer/yellow~red light emitting layer (doped, blue luminescent material and yellow~red illuminating material)/blue light-emitting layer (doped, blue luminescent material)/electron injecting layer/negative electrode
And, for the shape (half peak breadth) of the spectrum of fine setting blue-light-emitting composition, can and then establish green light emitting layer.
(xi) anode/hole injection layer/blue light-emitting layer (doped, blue luminescent material)/green light emitting layer (doping green luminescent material)/yellow~red light emitting layer (doping yellow~red illuminating material)/electron injecting layer/negative electrode
(xii) anode/hole injection layer/blue light-emitting layer (doped, blue luminescent material)/yellow~red light emitting layer (doping yellow~red illuminating material)/green light emitting layer (doping green luminescent material)/electron injecting layer/negative electrode
(xiii) anode/hole injection layer/green light emitting layer (doping green luminescent material)/blue light-emitting layer (doped, blue luminescent material)/yellow~red light emitting layer (doping yellow~red illuminating material)/electron injecting layer/negative electrode
(xiv) anode/hole injection layer/green light emitting layer (doping green luminescent material)/yellow~red light emitting layer (doping yellow~red illuminating material)/blue light-emitting layer (doped, blue luminescent material)/electron injecting layer/negative electrode
(xv) anode/hole injection layer/yellow~red light emitting layer (doping yellow~red illuminating material)/blue light-emitting layer (doped, blue luminescent material)/green light emitting layer (doping green luminescent material)/electron injecting layer/negative electrode
(xvi) anode/hole injection layer/yellow~red light emitting layer (doping yellow~red illuminating material)/green light emitting layer (doping green luminescent material)/blue light-emitting layer (doped, blue luminescent material)/electron injecting layer/negative electrode
By becoming such formation,, can obtain high efficiency and long-life organic EL than blue (or blue-green) organic EL to dropping into identical electric power.
Below, various member of formation are described.
As anode, can enumerate the electrode identical with above-mentioned material.
Blue light-emitting layer, preferably mixing contains the layer of at least a above material of blue emitting material.
Blue emitting material can use the fluorescent whitening agent of above-mentioned benzothiazole system, benzimidazole system, benzoxazole system etc., metal chelating combination hydroxyquinoline compounds (metal-chelatedoxynoid compounds), styryl benzene compounds etc.
Yellow~red light emitting layer preferably mixes and is selected from Yellow luminous material and the red illuminating material layer of material more than at least a kind.
For example, can enumerate dicyano methylene pyran derivate that the red oscillating laser pigment of No. 0281381 described conduct of communique of European publication uses, dicyano methylene thiapyran derivative, fluorescein derivative, perylene derivative etc.
Particularly, can enumerate above-mentioned Yellow luminous usefulness and redness or orange luminescence dopant.
Ratio as the luminous intensity of the blue composition that organic EL sent and yellow~red composition luminous intensity makes it to become 9: 1~concrete grammar of 5: 5 usefulness, can enumerate following method.
1. in blue light-emitting layer and the yellow~red light emitting layer, change the concentration of each dopant material.
2. in blue light-emitting layer and the yellow~red light emitting layer, change the doping position in the material of main part.
3. adjust the thickness and the complex index (complex refractive index) of constituent material of the class component of negative electrode, organic layer, anode layer, supporting substrate.
4. at negative electrode~have and insert dielectric layer or conductive layer between utmost point layer~anode layer~supporting substrate again.
5. change anode material or cathode material.
The hole is injected as constituting, the hole of transport layer is injected, transferring material, and the formation electronics injects, the electronics of transport layer injects, transferring material, can enumerate the material same with above-mentioned compound.
As negative electrode, can enumerate the material same with above-mentioned material.
Formation contains each organic layer of luminescent layer and the method for inorganic compound layer does not have particular determination, for example, can use vapour deposition method, method of spin coating, casting to be coated with known method such as method, LB method.
Below, the colour switching member is described.
The colour switching member is the member of following formation for example.
1. only by absorbing special wavelength light, sending the member that the fluorchrome of long wavelength's fluorescence constitutes.
2. intercept the member (colour filter member) that paint pigment that light not uses constitutes
3. fluorchrome is dispersed in member in the adhesive resin
4. be dispersed in member in the adhesive resin intercepting paint pigment that light not uses
5. fluorchrome with intercept colour filter member that light not uses and be blended in member in the adhesive resin
6. with the member (fluorescence conversion layer) that is dispersed with fluorchrome in the adhesive resin and the member that intercepts look filter member (color-filter layer) lamination that light not uses.
Wherein, as preferred formation, can enumerate contain fluorchrome 1., 3., 5., formation 6., as particularly preferred formation, can enumerate formation 6..
Blueness~the blue-green with organic EL that the present invention uses is luminous be transformed into green emitting green conversion member luminance transformation efficient preferably more than 50%, be more preferably more than 60%.Luminance transformation efficient is less than 50% o'clock, when carrying out the colorful light-emitting demonstration, because green composition is few, so white luminous balance might be destroyed.
Here, luminance transformation efficiency eta
G, be the brightness L that the fluorescence conversion layer is sent out by organic EL
dBehind the light of [nit], shinny degree L
g(Lg * 100)/L during the green light of [nit]
dValue.
In addition, be transformed into emitting red light red conversion member luminance transformation efficient preferably more than 10%, be more preferably more than 15%.Luminance transformation efficient was less than 10% o'clock, and when carrying out the colorful light-emitting demonstration, because red composition is few, white luminous balance might be destroyed.
The luminance transformation efficiency eta
R, be that the fluorescence conversion layer is accepted the brightness L that organic EL is sent out
dBehind the light of [nit], shinny degree L
r(the L during red light of [nit]
r* 100)/L
dValue.
Below, the member of formation of colour switching member is described.
(1) fluorescence conversion layer
As with the luminous fluorchrome that is transformed into green emitting of the blueness~blue-green of organic EL, and, can enumerate the fluorchrome same with above-mentioned material with the luminous fluorchrome that is transformed into orange~emitting red light of the blueness~green of organic EL.
In addition, according to the shape of the emission spectrum that organic EL sent, also can mix use being transformed into the fluorchrome of blue-light-emitting, the fluorchrome that is transformed into green emitting, the fluorchrome that is transformed into orange~emitting red light.
In addition, if various dyestuff has fluorescence also can use.
In addition, also can be in advance fluorchrome to be sneaked into the colorant that carries out pigmentation in the various pigmental resins.
As adhesive resin, can use the thermosetting resin of non-gel-type resin or light-cured type resin or epoxy resin etc. etc.These adhesive resins can use a kind also can use mixing more than 2 kinds separately.
For panchromaticization of installing, the colour switching member is carried out configured separate planely, preferred use can adopt photolithographic photoresist as adhesive resin.
1. photoresist
As photoresist, can enumerate the resin same with above-mentioned resin.
Above-mentioned photoresist is by reactive oligomers and polymerization initiator, polymerization accelerant, constitute as the monomer class of reactive diluent.Reactive oligomers as being fit to here use has following kind.
The epoxy acrylate class of acrylic acid and bisphenol-type epoxy resin or linear epoxy resin addition.
The acrylic acid 2-hydroxy methacrylate of equimolar amounts and multi-functional alcohol and multi-functional isocyanates are pressed the polyurethanes esters of acrylic acid of molar ratio reaction arbitrarily.
The polyester acrylate class that the acrylic acid of equimolar amounts and multi-functional carboxylic acid and multi-functional alcohol react under mol ratio arbitrarily.
The polyether-type esters of acrylic acid of polyalcohol and acrylic acid reaction.
The reactive polypropylene esters of gallic acid of the epoxy reaction of the side chain of acrylic acid and poly-(methyl methacrylate-CO-glycidyl methacrylate) etc.
The acrylic acid epoxy ester class is partly used the acrylic acid epoxy ester class of the carboxy-modified type of two alkali formula carboxylic acid anhydride modified.
The reactive polypropylene esters of gallic acid is partly used the reactive polypropylene esters of gallic acid of the carboxy-modified type of two alkali formula carboxylic acid anhydride modified.
The side chain of polybutadiene oligomer has acrylate-based PBAA ester class.
The silicone acrylates class of polysiloxane key on the main chain
Amino resin esters of acrylic acid with the amino resin modification.
In addition, as above-mentioned polymerization initiator, so long as the general initator that uses does not then have particular restriction in the polymerization reaction of vinyl monomer etc., for example, can enumerate the organic peroxide of benzophenone, acetophenones, benzoin class, thioxanthene ketone, anthraquinone class, azodiisobutyronitrile etc.
In addition, as above-mentioned polymerization accelerant, suitable for example can enumerate triethanolamine, 4,4 '-dimethylamino benzophenone (michler's ketone), 4-dimethylaminobenzoic acid ethyl ester etc.In addition, as the monomer class of above-mentioned reactive diluent, for example, in the radical polymerization system, can enumerate the monofunctional monomer of esters of acrylic acid or methyl acrylic ester etc.; The polyfunctional monomer of trimethyol propane triacrylate or pentaerythritol triacrylate, six acrylic acid dipentaerythritol ester etc.; The oligomer of polyester acrylate, acrylic acid epoxy ester, urethane acrylate, polyether acrylate etc. etc.
2. non-gel-type resin
As the adhesive resin of non-curing type, for example can preferably use polymethacrylates, polyvinyl chloride, vinyl chloride-vinyl acetate copolymer, alkyd resins, aromatic sulfonamides resin, Lauxite, melmac, benzoguanamine resin etc.In these adhesive resins, most preferably enumerate benzoguanamine resin, melmac and vinyl chloride resin.In addition, these adhesive resins can use a kind separately, also can use mixing more than 2 kinds.
In addition, except above-mentioned adhesive resin, also can use the adhesive resin of dilution usefulness, for example, can enumerate the mixture more than a kind or 2 kinds of polymethyl methacrylate or polyacrylate, Merlon, polyester, polyvinyl alcohol, PVP, hydroxyethylcellulose, carboxymethyl cellulose, polyamide, polysiloxanes, epoxy resin etc.
As additive, use its lowest excited triplet energy level to be
3The lowest excited triplet energy level of Eq, fluorchrome is
3During Ed, satisfy
3Eq<
3The additive of Ed relation.The composition occasion that multiple fluorchrome mixes selects additive will make it to satisfy above-mentioned relation to the fluorchrome of fluorescence peak that long wavelength is arranged.
Employing can obtain the fluorescence conversion layer with the fluorescence conversion layer with resin combination is coated with into desired thickness on the substrate of glass etc. method system film.
When making film,, can use solvent to make it to mix after the dissolving in order to improve the dispersiveness of above-mentioned each composition.Making a match is fit to the solvent of use, preferred glycol monoethyl ether, ethylene glycol monoethyl ether, 2-acetoxyl group-1-methoxy propane, 1-acetoxyl group-2-Ethoxyethane, cyclohexanone, toluene etc.
Can use known the whole bag of tricks as film-forming method, for example, method of spin coating, print process, rubbing method etc.Method of spin coating preferably.The thickness of the fluorescence conversion layer when making film is like this considered from the viewpoint that incident light is transformed into desired wavelength, makes needed for this reason thickness.This thickness usually can be at 1~100 μ m, preferably suitably selected in the scope of 1~20 μ m.
In order to adopt the fluorescence conversion method to obtain panchromatic light-emitting device, must on substrate, dispose RGB three primary colors fluorescence conversion layer two-dimensionally.For this reason, after making film, according to the autofrettage of common fluorescence conversion layer, employing photoetching process etc. is carried out etching, can obtain the fluorescence conversion layer by being heating and curing above-mentionedly.The heating-up temperature here has suitable temperature respectively according to the kind of photoresist material, can carry out 0.5~3 hour heat treated 70~240 ℃ scope.
(2) color-filter layer
The color-filter layer that the interference filter that the color-filter layer organic/inorganic substance constitutes, band pass filter (band passfilter), organic substance constitute etc., but the material of preferred pigment etc. is abundant and the good organic color-filter layer of difficult processing capacitive.As the material of color-filter layer, can enumerate above-mentioned pigment or adhesive resin.
The ratio of pigment and adhesive resin, preferably 1: 99~90: 10 (weight ratio).Pigment was less than 1% o'clock, and color-filter layer can not fully separate ambient light, and the mechanical strength that surpasses the characteristic degradation, adhesion strength etc. of 90% o'clock film reduces and becomes crisp plasma membrane.More preferably the ratio of pigment and adhesive resin is 10: 90~50: 50 (weight ratio).The thickness of color-filter layer can be in the scope of not destroying color filter functionality be scope arbitrarily, normally 1 μ m~10mm, preferred 1 μ m~500 μ m, be more preferably 1 μ m~10 μ m.
The light transmission rate of red color filter layer under wavelength 600nm preferably below 60%, be more preferably below 50%.Light transmission rate is greater than 60% o'clock, because through the light of wavelength less than 600nm, so the red purity of color light emitting device might not be pure red.
The light transmission rate of green color filter layer under wavelength 540nm preferably more than 80%, is more preferably more than 85%.Light transmission rate was less than 80% o'clock, because the green composition of color light emitting device is few, so might destroy white luminous balance.
The light transmission rate of blue color filter under wavelength 460nm preferably more than 60%, is more preferably more than 70%.Light transmission rate is less than 60% o'clock, because of the blue composition of color light emitting device is few, so might destroy white luminous balance.
In addition, color-filter layer is plane earth separates when being configured, preferred use can adopt photolithographic above-mentioned photoresist as adhesive resin.And the occasion of employing print process can be used the printing-ink (medium) that utilizes above-mentioned transparent resin.
Color-filter layer mixes fluorchrome and resin and appropriate solvent, disperse maybe can dissolve usually, becomes aqueously, and the method that adopts spin-coating method, rolling method, rod to be coated with method, casting Tu Fa etc. is made film on the substrate of setting.In addition, also can make on the substrate that dry film is attached to setting.When color-filter layer is carried out pattern formation, generally adopt photoetching process or screen painting method etc. to carry out.
Such color-filter layer, when making the light-emitting device of the panchromatic or broken colour of sending out primaries, owing to only get final product with a kind of layer basically, so simple in structure, can adopt low-cost the manufacturing.
Above-mentioned various member of formation form on substrate.
As substrate, for example, can enumerate glass plate, metallic plate, ceramic wafer or plastic plate (polycarbonate resin, acrylic resin, Corvic, pet resin, polyimide resin, mylar, epoxy resin, phenolic resins, silicones, fluororesin etc.) etc.
In addition, the substrate of these material systems is invaded in the color light emitting device for fear of moisture, and also preferred passing through and then formation inoranic membrane or fluorine resin coating implemented anti-wet process or hydrophobicity and handle.
Therefore, invade luminescence medium for fear of moisture, preferred anti-wet process or the hydrophobicity of adopting handled, and makes the moisture content of substrate and gas transmission coefficient little.Particularly, the moisture content that preferably makes supporting substrate respectively is the following value of 0.0001 weight %, and making gas transmission coefficient is 1 * 10
-13Cccm/cm
2The value that seccmHg is following.
That color light emitting device of the present invention uses, become the organic EL of beam split by the peak intensity of setting with yellow~redness than the colour content of turning blue, the organic EL good with containing 3 former colour balances compared, component structure is simple, the reproducibility of element manufacturing is good.
Compare with blue (or blue-green) organic EL in addition, efficient height, life-span are long.
In addition, as the colour switching member, use same member, color light emitting device when using blue organic EL as organic EL is compared, as color light emitting device, when sending out the white light of same brightness, the organic EL that the present invention uses, the luminous intensity of element is low to get final product.
This means and use organic EL used in the present invention that long as the brightness of light-emitting device life-span of partly decaying, the absorption light quantity owing to the colour switching member is few simultaneously, so mean that also the deterioration of colour switching member is little.
Therefore, for example, can make the half long-life color light emitting device of decay life-span above 15000 hours.
In addition, when adopting identical input electric power to compare as color light emitting device, the organic EL that the present invention uses, the luminous intensity of color light emitting device is big.Therefore, with respect to the occasion of using blue organic EL, in the scope that does not reduce luminous intensity, can be adjusted to the transmitance that improves the employed colour filter of colorimetric purity.
Therefore, particularly, can be at computer, portable phone, car steering guidance system, color TV, video recorder, digital camera with use in the color monitor purposes that monitors drawing etc. etc.
Embodiment
Supporting substrate (OA2 glass: the NEG corporate system) at 112mm * 143mm * 1.1mm, rotary coating is as the V259BK (chemical company of Nippon Steel system) of black matrix (black matrix BM) material, utilize photomask to carry out ultraviolet exposure, make it to form opening 68 μ m * 285 μ m grid master drawing shapes, after 2% aqueous sodium carbonate video picture, after 200 ℃ of bakings, form the figure of black matrix (thickness 1.5 μ m).
Then, rotary coating is as the V259B (chemical company of Nippon Steel system) of blue color filter material, utilize photomask, carry out ultraviolet exposure with the BM aligned position, obtain the banded figure of 320 rectangles (line 100 μ m, gap 230 μ m), after 2% aqueous sodium carbonate video picture, after 200 ℃ of bakings, form the figure (being equivalent to blue pixel) of blue color filter (thickness 1.5 μ m).
Then, rotary coating as the V259G (chemical company of Nippon Steel system) of green color filter material, utilize photomask and BM aligned position to carry out ultraviolet exposure, obtain the banded circular of 320 rectangles (line 100 μ m, gap 230 μ m), after 2% aqueous sodium carbonate video picture, after 200 ℃ of bakings, forming the figure of green color filter (thickness 1.5 μ m) with blue green color filter position adjacent.
Then, rotary coating is as the CRY-S 840B (the FILM Arch of Fuji system) of red color filter material, aim at the BM position by photomask and carry out ultraviolet exposure, obtain the banded circular of 320 rectangles (line 100 μ m, gap 230 μ m), after 2% aqueous sodium carbonate video picture, after 200 ℃ of bakings, the position between blue color filter and green color filter forms the figure of red color filter (thickness 1.5 μ m).
Then, preparation make the coumarin 6 of 0.04mol/kg (to solid constituent) amount be dissolved in acrylic acid series minus photoresist (V259PA solid component concentration 50%: the printing ink chemical company of Nippon Steel system) is as green conversion construction material.
This printing ink is spin-coated on the previous substrate, by photomask identical when forming colour filter, carry out ultraviolet exposure to being equivalent to position on the green color filter, with after the 2% aqueous sodium carbonate video picture, 180 ℃ of bakings, form the figure (thickness 10 μ m) (being equivalent to green pixel) of green conversion member.
Then, the preparation make coumarin 6: 0.53g, alkali violet 11:1: 1.5g, rhodamine 6G: 1.5g be dissolved in acrylic acid series minus photoresist (V259PA, solid component concentration 50%: chemical company of Nippon Steel system): the printing ink among the 100g is as the material of red conversion member.
This printing ink is spin-coated on the previous substrate, by with form the identical photomask of colour filter, carry out ultraviolet exposure to being equivalent to position on the red color filter, with after the 2% aqueous sodium carbonate video picture, 180 ℃ of bakings, form the figure (thickness 10 μ m) (being equivalent to red pixel) of red conversion member.
In addition, use fluorescence to survey device, probe fixes on red 600nm place, when measuring the excitation spectrum of the red conversion member of making under the same terms under 400~600nm excitation wavelength, obtains the spectrogram that solid line is represented among Fig. 6.Here, the spike length of 500~600nm of this exciting line is 530nm.
In addition, acrylic acid series thermosetting resin (V259PH: chemical company of Nippon Steel system) be spin-coated on the previous substrate as planarization film, at 180 ℃ of baking formation planarization films (thickness 5 μ m).
Then, adopt sputter legal system IZO (indium-zinc oxide) film, thickness 200nm.
Then, (the HPR204: the OLIN of Fuji system) of spin coating eurymeric resist on this substrate, carry out ultraviolet exposure by photomask, form the taking-up portion of negative electrode, banded figure with line 90 μ m, gap 20 μ m, use the tetramethyl ammonium hydroxide imaging liquid to carry out video picture, 130 ℃ of bakings, obtain the resist figure.
Then, the IZO etchant that uses 5% oxalic acid aqueous solution to constitute carries out etching to the IZO of exposed portions serve.Be the stripper (N303: long rapids industry system) handle resist, obtain IZO figure (lower electrode: anode, 960 lines) of main component again with monoethanolamine in the position that is equivalent on blue color filter, green conversion member, the red conversion member.
Then, spin coating negative resist (V259PA: chemical company of Nippon Steel system), carry out ultraviolet exposure, carry out video picture with the tetramethyl ammonium hydroxide imaging liquid by photomask.Then, toast, form the clathrate figure interlayer dielectric of be covered IZO rib (peristome 70 μ m * 290 μ m of IZO) at 180 ℃.As first interlayer dielectric.
Then, the spin coating negative resist (ZPN 1100: Japanese ゼ オ Application system), carry out ultraviolet exposure by photomask after, toast the banded figure that forms line 20 μ m, gap 310 μ m after the exposure again.Then, with tetramethylphosphonihydroxide hydroxide base amine imaging liquid with negative resist video picture, formation and IZO with heavy straight organic second interlayer dielectric (dividing plate).As second interlayer dielectric (dividing plate).
The substrate that will make like this in pure water and isopropyl alcohol carries out ultrasonic waves for cleaning, after the blowing drying, carries out UV and cleans.
Then, substrate is moved on on the organic vapor deposition device (Japanese vacuum technique system), use the substrate fixer fixing base.In addition, in advance, on each molybdenum system heating plate, add respectively as 4 of hole-injecting material, 4 '; 4 "-three [N-(3-aminomethyl phenyl)-N-phenyl amino] triphenylamine [MTDATA], 4,4 '-two [N-(1-naphthyl)-N-phenyl amino] biphenyl [NPD] as the material of main part of luminescent material, 4,4 '-two (2, the 2-diphenylacetylene) biphenyl (DPVBi), rubrene as dopant material, 1,4-two [4-(N, N-diphenyl amino styryl benzene)] (DPAVB), as three (oxine) aluminium (Alq) of electronics injection material, again AlLi alloy (Li concentration: 10 atom %) be contained in the tungsten throwing as negative electrode.
Then, vacuum tank is reduced pressure 5 * 10
-7Behind the torr, in way from the hole injection layer to the negative electrode, do not destroy vacuum and carry out the order lamination by once vacuumizing by following order.
At first, as hole injection layer, the evaporation rate that adopts 0.1~0.3nm/ second is the thick 60nm of MTDATA evaporation film-forming, as first luminescent layer, the evaporation rate that adopts 0.1~0.3nm/ second is the NPD as main body, adopt the steaming speed of 0.0005~0.0015nm/ second that the rubrene as dopant is carried out common evaporation and become thickness 20nm, as second luminescent layer, adopt 0.1~0.3nm/ evaporation rate second DPVBi as main body, adopt the evaporation rate of 0.003~0.008nm/ second that the DPAVB as dopant is carried out common evaporation, become thickness 40nm, as electron injecting layer, the evaporation rate that adopts 0.1~0.3nm/ second is the thick 20nm of Alq evaporation film-forming, in addition, as negative electrode, adopt evaporation rate 0.5~1.0nm/ second, Al and Li evaporation film-forming thick be 150nm.
In addition, at the scope deposition mask of organic layer (hole injection layer~electron injecting layer) coating colour filter and colour switching member, negative electrode also deposition mask makes it and can be connected with the IZO taking-up electrode of former formation.Negative electrode (upper electrode) utilizes the dividing plate of before making on substrate automatically to be separated, and forms the figure (240 bar line) that intersects with lower electrode.
Like this, after making organic EL on the substrate, with under the condition that atmosphere contact substrate is not being moved on in the drying box that leads to drying nitrogen.In this drying box, the smalt plate of usefulness hermetic sealing substrate coats display part, and (TB3102:Three BondCo. Ltd) seals behind the photocuring adhesive of display part periphery usefulness cation-curable.
In addition, in order to confirm the luminescent spectrum of organic EL, on aforesaid base plate, make colour filter, (monochromatic usefulness monochrome), is made organic EL under the same conditions not have the substrate of colour switching member.
In this wise, make lower electrode and upper electrode and form the panchromatic and monochromatic organic EL light emitting device that the XY matrix forms, this lower electrode and upper electrode are added dc voltage (lower electrode: (+), upper electrode; (-)), the cross section of each electrode (pixel) carries out luminous as a result.
(CS 1000, MINOLTA Co., Ltd) emission spectrum of the monochromatic usefulness of mensuration found that the I with Fig. 2 (A) to use the color colour difference meter
1(peak intensity of blue domain: the outer peak intensity of blue domain=0.9: 0.1) consistent substantially, (long (535nm) is consistent substantially for 500~600nm) spike beyond the luminescent spectrum blue domain of the excitation spectrum spike of 500~600nm of red conversion member long (530nm) and organic EL.
Only select red pixel, it is luminous that applied voltage makes it.(CS1000, MINOLTA Co. Ltd) measure luminous spectrum to use the color colour difference meter.The results are shown in table 2.
In addition, respectively the indigo plant of panchromatic usefulness, green, red pixel are applied identical voltage and make it simultaneously luminous, use color colour difference meter (CS1000, MINOLTA Co., when Ltd) measuring colourity, the cie color coordinate is, the X=0.24 in the white territory, Y=0.23 are consistent with analog result.
Among the embodiment 1, except first luminescent layer as organic EL, adopt evaporation rate 0.1~0.3nm/ second as the NPD of main body, adopt evaporation rate 0.0015~0.0045nm/ second that the rubrene as dopant is carried out beyond the common evaporation, other adopt identical condition to make panchromatic and monochromatic organic EL light emitting device, lower electrode and upper electrode to this light-emitting device add dc voltage (lower electrode: (+), upper electrode: (-)), and the cross section of each electrode (pixel) carries out luminous as a result.
Use color colour difference meter (CS1000, MINOLTA system) to measure monochromatic use luminescent spectrum, the I of result and Fig. 2 (A)
3(peak intensity of blue domain: the peak intensity outside the blue domain=0.7: 0.3) consistent substantially, (long (535nm) basically identical of 500~600nm) spike beyond the blue domain of the luminescent spectrum of spike of the excitation spectrum of 500~600nm of red conversion member long (530nm) and organic EL.
Only select red pixel, it is luminous that applied voltage makes it, and uses color colour difference meter (CS1000, MINOLTA system) to measure luminescent spectrum.The results are shown in table 2.
In addition, respectively to the indigo plant of panchromatic usefulness, green, red pixel, add identical voltage and make it simultaneously luminous, use color colour difference meter (CS1000, when the MINOLTA system) measuring colourity, the cie color coordinate is X=0.26, the Y=0.30 in the white territory, and is consistent with analog result.
Among the embodiment 1, except first luminescent layer as organic EL, adopt evaporation rate 0.1~0.3nm/ second, as the NPD of main body, adopt evaporation rate 0.0025~0.0075nm/ second that the rubrene as dopant is carried out beyond the common evaporation, other adopt identical condition to make full color and monochromatic organic EL light emitting device, lower electrode and upper electrode to this light-emitting device add dc voltage (lower electrode: (+), upper electrode (-)), and the cross section of each electrode (pixel) carries out luminous as a result.
Use color colour difference meter (CS1000, MINOLTA system) to measure the luminescent spectrum of monochromatic usefulness, found that I with Fig. 2 (A)
5(the peak intensity of blue domain: the basically identical peak intensity outside the blue domain=0.5: 0.5), (long (535nm) basically identical of 500~600nm) spike beyond the blue domain in the luminescent spectrum of spike of the excitation spectrum of 500~600nm of red conversion member long (530nm) and organic EL.
Only select red pixel, it is luminous that applied voltage makes it, and uses color colour difference meter (CS1000, MINOLTA system) to measure luminescent spectrum.The results are shown in table 2.
In addition, to the indigo plant of panchromatic usefulness, green, red pixel, add identical voltage and make it simultaneously luminous, when using color colour difference meter (CS1000, MINOLTA system) to measure colourity respectively, the cie color coordinate is, X=0.29, Y=0.37 in the white territory, and is consistent with analog result.
In embodiment 1, except first luminescent layer as organic EL, adopt evaporation rate 0.1~0.3nm/ second as the NPD of main body, adopt evaporation rate 0.0030~0.0090nm/ second that the rubrene as dopant is carried out beyond the common evaporation, other adopt identical condition to make full color and monochromatic organic EL light emitting device, lower electrode and upper electrode to this light-emitting device add dc voltage (lower electrode: (+), upper electrode: (-)), and the cross section of each electrode (pixel) carries out luminous as a result.
Use color colour difference meter (CS1000, MINOTLA system) to measure the luminescent spectrum of monochromatic usefulness, found that I with Fig. 2 (A)
6(the peak intensity of blue domain: the basically identical peak intensity outside the blue domain=0.4: 0.6), (long (535nm) basically identical of 500~600nm) spike beyond the blue domain of the luminescent spectrum of spike of the excitation spectrum of 500~600nm of red conversion member long (530nm) and organic EL.
Only select red pixel, it is luminous that applied voltage makes it, and uses color colour difference meter (CS1000, MINOLTA system) to measure luminescent spectrum.The results are shown in table 2.
Respectively to the indigo plant of panchromatic usefulness, green, red pixel, add identical voltage and make it simultaneously luminous, when using color colour difference meter (CS1000, MINOLTA system) to measure colourity, the cie color coordinate is, X=0.30, Y=0.41 that white is overseas are consistent with analog result.
Comparative example 1
In embodiment 1, except first luminescent layer of organic EL does not use rubrene, other use identical condition to make panchromatic and monochromatic organic EL light emitting device, lower electrode and upper electrode to this light-emitting device add dc voltage (lower electrode: (+), upper electrode (-)), and the cross section of each electrode (pixel) carries out luminous as a result.
Use color colour difference meter (CS1000, MINOLTA system) to measure the luminescent spectrum of monochromatic usefulness, the I of result and Fig. 2 (A).(the peak intensity of blue domain: the basically identical peak intensity outside the blue domain=1: 0).
Only select red pixel, it is luminous that applied voltage makes it, and uses color colour difference meter (CS1000, MINOLTA system) to measure luminescent spectrum.The results are shown in table 2.
In addition, respectively to the indigo plant of panchromatic usefulness, green, red pixel, add identical voltage and make it simultaneously luminous, when using color colour difference meter (CS1000, MINOLTA system) to measure colourity, the cie color coordinate is, X=0.23, Y=0.21 that white is overseas are consistent with analog result.
Comparative example 2
In embodiment 1, except material, do not use beyond the rhodamine 6G as red conversion member, other adopt identical condition preparation printing ink to form red conversion member.
Use fluorescence determination device, visit meter and fix on red 600nm place, when under 400~600nm excitation wavelength, measuring the excitation spectrum of red conversion member, as shown in phantom in Figure 6, obtain not having the spectral line (the long 570nm of spike) at very big peak at 520~550nm.
Below, adopt the condition identical with embodiment 3, make panchromatic and monochromatic organic EL light emitting device, the lower electrode and the upper electrode of this light-emitting device added dc voltage (lower electrode: (+), upper electrode: (-)), the cross section of each electrode (pixel) carries out luminous as a result.
Use color colour difference meter (CS1000, MINOLTA system) to measure the luminescent spectrum of monochromatic usefulness, the I of result and Fig. 2 (A)
5(peak intensity of blue domain: the basically identical peak intensity outside the blue domain=0.5: 0.5), and (long (535nm) is inconsistent for 500~600nm) spike beyond the luminescent spectrum blue domain of spike of the excitation spectrum of 500~600nm of red conversion member long (570nm) and organic EL.
Only select red pixel, it is luminous that applied voltage makes it, and uses color colour difference meter (CS1000, MINOLTA system) to measure luminescent spectrum.The results are shown in table 2.
In addition, respectively the indigo plant of panchromatic usefulness, green, red pixel are added identical voltage and make it simultaneously luminous, when using color colour difference meter (CS1000, MINOLTA system) to measure colourity, the cie color coordinate is X=0.24, Y=0.37 that white is overseas.
The cie color coordinate that the luminous intensity of the red pixel in above embodiment 1~4 and the comparative example 1~2 (red color intensity: comparative example 1 is standard as 100) (is respectively added identical voltage to blue, green, redness) when lighting a lamp entirely with panchromatic organic EL light emitting device is shown in following table 2.
Table 2
The cie color that (respectively adds identical voltage to blue, green, red) during the lighting a lamp entirely of panchromatic organic EL light emitting device is shown in Fig. 7.
As table 2 and shown in Figure 7, among the embodiment 1~4, (500~600nm) glow peak is consistent, so the luminous intensity of red pixel is big outward because the excitation spectrum of red conversion member has the blue domain of at least 1 peak and organic EL.In addition, among the embodiment 1~3, because organic EL moderately has the outer luminous intensity of blue domain (luminous intensity of blue domain: the luminous intensity outside the blue domain is in 1: 9~5: 5 scope), so guarantee the white balance of panchromatic organic EL light emitting device more well.
In addition, in the comparative example 1,2 since organic EL not with the outer peak of the corresponding blue domain in peak of the excitation spectrum of red conversion member, so red color intensity is extremely low, can't guarantee white balance.
Describe with reference to the color light emitting device of accompanying drawing present embodiment.
Fig. 8 is the color light emitting device ideograph that embodiment 5 makes.
Supporting substrate 610 uses the glass substrate (OA2 glass, NEG corporate system) of shape 112mm * 143mm * 1.1mm.At black matrix (BM) material (V259BK of this substrate spin coating, chemical company of Nippon Steel system), carries out ultraviolet exposure, make it to become the clathrate figure by photomask, after 2% aqueous sodium carbonate video picture, toast the figure that forms black matrix 620 (thickness 1.5 μ m) at 200 ℃.
Order forms blue color filter shown below 630, green color filter 632, red color filter 634 and makes it to imbed the BM storeroom.
Spin coating pigment is blue color filter material (V259B-050X, Nippon Steel chemistry system, to call BCF1 in the following text), aim at the BM position by photomask and carry out ultraviolet exposure, make it to obtain the banded figure of 320 rectangles (line 90 μ m, gap 240 μ m), after using 2% aqueous sodium carbonate video picture, toast the figure that makes blue color filter 630 (BCF1, thickness 1.8 μ m) at 200 ℃.
The measurement result of the inner transmitance of the BCF1 figure that adopts micro-spectral to measure is shown in Fig. 9 (A).
In the present embodiment, blue color filter 630 is blue conversion member.
Spin coating pigment is green color filter material (V259G-095X, Nippon Steel chemistry system, to call GCF1 in the following text), pass through photomask, aim at the BM position and carry out ultraviolet exposure, make it to obtain the banded figure of 320 rectangles (line 90 μ m, gap 240 μ m), after using 2% aqueous sodium carbonate video picture, 200 ℃ toast after, obtaining the figure of green color filter 632 (GCF1, thickness 2.0 μ m) with the adjacent position of blue color filter 630.
The transmitance measurement result of the GGCF1 figure inside of adopting micro-spectral to measure is shown in Fig. 9 (B).
Spin coating pigment is red color filter material (CRY-S840B, the FILM Arch of Fuji system, to call RCF1 in the following text), pass through photomask, aim at the BM position and carry out ultraviolet exposure, make it to obtain the banded figure of 320 rectangles (line 90 μ m, gap 240 μ m), after using 2% aqueous sodium carbonate video picture, 200 ℃ toast after, the position between blue color filter 630 and green color filter 632 obtains the figure of red color filter 634 (RCF1, thickness 1.2 μ m).
The transmitance measurement result of the figure inside of the RCF1 that adopts micro-spectral to measure is shown among Fig. 9 (C).
Form green fluorescence transform layer 640 shown below in order on the top of green color filter 632, then, form red fluorescence conversion layer 642 shown below on the top of red color filter 634.
As the material of green fluorescence transform layer 640, the preparation coumarin 6 is dissolved in the printing ink of acrylic acid series minus photoresist (V259PA, chemical company of Nippon Steel system), and the amount that makes coumarin 6 is 0.04mol/kg (solid constituent relatively).
This printing ink is spin-coated on before formed on the substrate of colour filter, pass through mask during with the formation colour filter equally, ultraviolet exposure is carried out in the position that is equivalent to green color filter 632 tops, after using 2% aqueous sodium carbonate video picture, toast at 180 ℃, form the figure (thickness 10 μ m) of green fluorescence transform layer 640.
Form green conversion member 650 by green color filter 632 and green fluorescence transform layer 640.
Measure by colored micro-spectral, the fluorogram to the 640 surface irradiation excitation wavelength 430nm light time of green fluorescence transform layer is shown in Figure 10.In Figure 10, what G put down in writing is the spectrogram of green fluorescence transform layer 640.
As the material of red fluorescence conversion layer 642, preparation makes coumarin 6 (0.53g), alkali violet 11:1 (1.5g), rhodamine 6G 1.5g be dissolved in printing ink among acrylic acid series minus photoresist (V259PA, chemical company of the Nippon Steel system) 100g.
This printing ink is spin-coated on before formed on the substrate of green fluorescence transform layer 640, pass through mask during with the formation colour filter equally, after the position that is equivalent to red color filter 634 tops carried out ultraviolet exposure, uses 2% aqueous sodium carbonate video picture, at 180 ℃ of figures (10 μ m behind the film) that toast, form red fluorescence conversion layer 642.
Form red conversion member 660 by red color filter 634 and red fluorescence conversion layer 642.
The employing micro-spectral is measured, and the fluorogram to the 642 surface irradiation excitation wavelength 430nm light time of red fluorescence conversion layer is shown in Figure 10.The figure that is recited as R among Figure 10 is the spectrogram of red fluorescence conversion layer 642.
As planarization film 670, be that acrylic acid series thermosetting resin (V259PH, chemical company of Nippon Steel system) is spin-coated on the substrate that forms red fluorescence conversion layer 642, at 180 ℃ of bakings, formation planarization film 670 (thickness 5 μ m).
As anode 680, be to adopt sputtering method IZO (indium-zinc oxide) film forming, thickness is 220nm.Then, spin coating eurymeric resist (HPR204 on this substrate, the OLIN of Fuji system), carry out ultraviolet exposure by photomask, make it to form the taking-up portion of anode 716 and the banded figure of line 90 μ m, gap 20 μ m, use the video picture of tetramethyl ammonium hydroxide imaging liquid, obtain the resist figure 130 ℃ of bakings.
Then, the etchant that uses 5% oxalic acid aqueous solution to form carries out etching to the IZO of exposed portion.Be that the stripper of main component is handled resist with monoethanolamine again, with blue color filter 630, green fluorescence transform layer 640, red fluorescence conversion layer 642 corresponding position, form IZO figure (anode, 960 lines) 680.
As first interlayer dielectric 690, spin coating negative resist (V259PA, chemical company of Nippon Steel system) carries out ultraviolet exposure by photomask, uses the tetramethyl ammonium hydroxide imaging liquid to carry out video picture.
Then, toast at 180 ℃, (peristome 70 μ m * 290 μ m of IZO) form interlayer dielectric 690 behind the lining IZO rib.
In addition, as second interlayer dielectric 700 (anode clapboard), spin coating negative resist (ZPN1100, Japanese ZEON company), behind the photomask ultraviolet exposure, the banded figure that makes it to form line 20 μ m, gap 310 μ m carries out postexposure bake again.Then, use the tetramethyl ammonium hydroxide imaging liquid to carry out video picture, form and the banded figure of IZO second interlayer dielectric 700 of orthogonal mutually.
The substrate that will make like this in pure water and isopropyl alcohol carries out ultrasonic waves for cleaning, after the blowing drying, carries out the UV ozone clean.
Then, use organic vapor deposition device, carry out vacuum evaporation according to the order of hole injection layer 712, hole transmission layer, luminescent layer 714 (yellow~red light emitting layer, blue light-emitting layer), electron injecting layer, negative electrode 716 and make organic EL 710.Material of each layer and bed thickness such as following.
Hole injection layer: the material that uses following formula [1] expression.Bed thickness is 60nm.
Hole transmission layer: the material that uses following formula [2] expression.Bed thickness is 20nm.
Huang~red light emitting layer: use the material (material H) of following formula [3] expression and the material (material B) of following formula [4] expression according to 5: 0.01 ratios.Bed thickness is 5nm.
Blue light-emitting layer: according to 35: 1 material (materials A) than materials used H and following formula [5] expression.Bed thickness is 35nm.
Electron injecting layer: use Alq, bed thickness layer 20nm.
Negative electrode: use Al, Li, bed thickness are 150nm.
In this wise, after making organic EL on the substrate, make substrate not contact atmosphere and move on in the drying box that feeds drying nitrogen, in this drying box, smalt plate lining display part with hermetic sealing substrate 720, show that periphery uses anion curing type adhesive (TB3102, Three Bond system) photocuring to seal, and makes the panchromatic organic EL light emitting device 600 (aperture opening ratio 56%) that anode and negative electrode are formed with the XY matrix.
In addition, in order to estimate the luminescent properties of prepared only organic EL, make monochromatic organic EL light emitting device (aperture opening ratio 56%), except not forming colour filter, colour switching member, other adopt the condition identical with full color organic EL light emitting device 600 to make.
In addition, the direction of arrow among Fig. 8 is the light removing direction.
Except by 35: 0.8 form the blue light-emitting layer than materials used H and materials A, other make colorful light-emitting element and monochromatic light-emitting component similarly to Example 5.
Except by 35: 0.6 form the blue light-emitting layer than materials used H and materials A, other make colorful light-emitting element and monochromatic light-emitting component similarly to Example 5.
Embodiment 8
Except luminescent layer be the three-decker of blue light-emitting layer, green light emitting layer, yellow~red light emitting layer, by these luminescent layers of following sequentially built, other make colorful light-emitting element and monochromatic light-emitting component similarly to Example 5.
Blue light-emitting layer: by 5: 0.07 than materials used H and materials A.Bed thickness is 5nm.
Green light emitting layer: by 10: 0.13 material (material D) than materials used H and following formula [6] expression.Bed thickness is 10nm.
Yellow~red light emitting layer: by 25: 1.25 than materials used H and material B.Bed thickness is 25nm.
Comparative example 3
Except the ratio by 35: 0.4 forms the blue light-emitting layer with material H and materials A, other make colorful light-emitting element and monochromatic light-emitting component similarly to Example 5.
Comparative example 4
Except with blue light-emitting layer such as following change, do not establish yellow~red light emitting layer, other make colorful light-emitting element and monochromatic light-emitting component similarly to Example 5.
Blue light-emitting layer: by 40: 1 than materials used H and materials A.Thickness is 40nm.
Comparative example 5
Except with blue light-emitting layer such as following change, do not establish yellow~red light emitting layer, other make colorful light-emitting element and monochromatic light-emitting component similarly to Example 5.
Blue light-emitting layer: by 40: 1 than materials used H and material D.Thickness 40nm.
Comparative example 6
Except adopt following method the 2nd blue color filter material laminate on the BCF1, other and comparative example 5 are similarly made colorful light-emitting element and monochromatic light-emitting component.
Rhodamine Zn is dissolved in the acrylic acid series minus photoresist (chemical company of V259PA Nippon Steel system), and the amount that makes rhodamine Zn is 0.08mol/kg (solid constituent relatively), preparation printing ink.
This printing ink is spin-coated on the substrate that is completed into colour filter, by mask same when forming colour filter, ultraviolet exposure is carried out in the position that is equivalent to blue color filter (BCF1) top, after using 2% aqueous sodium carbonate video picture, toast at 180 ℃, form the figure (thickness 10 μ m) (below, claim BCF2) of blue conversion member.
The transmitance measurement result that adopts figure spectral photometry, BCF2 inside is shown in Fig. 9 (D).
[relation of the luminous intensity of blue composition and yellow~red composition and the colourity of color light emitting device]
Add the direct voltage of 5V between the anode of the monochromatic organic EL light emitting device of embodiment 5~8 and comparative example 3~5 and negative electrode, the cross section of each electrode (pixel) carries out luminous as a result.Use beam split radiance meter (CS-1000, MINOLTA system) to measure emission spectrum, meanwhile use the multitester measuring current value.
As a result, all device current densities are about 1mA/cm
2, outside quantum yield is about 5%.The luminescent spectrum of this moment is shown in Figure 11 (embodiment 5~6), Figure 12 (embodiment 7~8) and Figure 13 (comparative example 3~5).
By Figure 11~Figure 13, obtain the ratio of luminous intensity with the luminous intensity of yellow~red composition of the blue composition that each embodiment and comparative example organic EL that make, that form sends in light-emitting device.
Among the embodiment 5~8, the luminous spike length of the luminous and yellow~red composition of blue composition is respectively 455nm, 565nm.The luminous intensity of blue composition and the ratio of the luminous intensity of yellow~red composition are to be to be to be 0.57: 0.43 in 0.63: 0.37, embodiment 8 in 0.74: 0.26, embodiment 7 in 0.83: 0.17, embodiment 6 among the embodiment 5.
In the comparative example 3, blue composition spike length luminous and that yellow~red composition is luminous is respectively 455nm, 567nm.The luminous intensity of blue composition is 0.49: 0.51 with the ratio of the luminous intensity of yellow~red composition.
In the comparative example 4, the luminous spike length of blue composition is 455nm, and the luminous spike length of yellow-red composition does not have.The ratio of the luminous intensity of blue composition and the luminous intensity of yellow~red composition is 1: 0.
In the comparative example 5, the luminous spike length of blue composition is 472nm, and the luminous spike length of yellow~red composition does not have.The luminous intensity of blue composition is 1: 0 with the ratio of the luminous intensity of yellow~red composition.
Characteristic when adopting the drive condition identical with monochromatic light-emitting device to make the full color organic EL light emitting device of embodiment 5~8 and comparative example 3~6 luminous is shown in table 3.
Here, so-called panchromatic red (green, indigo plant) expression just red (green, indigo plant) brightness and colourity when pixel is lit a lamp, brightness and colourity when so-called panchromatic white expression is lit a lamp whole pixels.
Comparative example 5 is to use the color light emitting device of the luminous organic EL of indigo plant~green composition only.
Though more complete 5 white luminances are the highest, the colour difference of bletilla indigo plant can not be called panchromatic.
Therefore, in order to regulate blue colourity, in the comparative example 6 of BCF1 superimposed layer BCF2, white luminance reduces, and whiteness is still poor with degree ground with comparative example 5.
In addition, embodiment 5~8 and comparative example 3 are to use the color light emitting device of the luminous organic EL of blue composition and Huang~red composition.
In a word, red, green, blue is all represented to be called panchromatic colourity, but in the comparative example 3, because of the ratio of the luminous intensity of blue composition and the luminous intensity of yellow~red composition is that 0.5: 0.5 and red composition are strong, so whiteness x, y are not too big.
Relative therewith, among the embodiment 5~8, the luminous intensity of blue composition enters 0.9: 0.1 with the ratio of the luminous intensity of yellow~red composition~0.5: 0.5 scope, and white colourity is good.
Embodiment 9
Except the composition of blue light-emitting layer and yellow~red light emitting layer and bed thickness are made into following, other make colorful light-emitting element and monochromatic light-emitting component similarly to Example 5.
Huang~red light emitting layer: by 5: 0.02: 0.1 than materials used H, material B and materials A.Bed thickness is 5nm.
Blue light-emitting layer: by 35: 1 than materials used H and materials A.Thickness is 35nm.
Except a green color filter materials being made into pigment is that green color filter material (CG-8510L, the FILM Arch of Fuji system, below, claim GCF2), its thickness are that other make the colorful light-emitting element similarly to Example 5 beyond the 1.0 μ m.
The measurement result of the transmitance of the figure inside of the GCF2 that adopts micro-spectral to measure is shown among Fig. 9 (E).
Embodiment 11
Except a red color filter materials being made into pigment is that red color filter material (CR 7001, the FILM Arch of Fuji system, below, claim RCF2), its thickness are that other make the colorful light-emitting element similarly to Example 10 beyond the 1.5 μ m.
The measurement result of the inner transmitance of the figure of the RCF2 that adopts micro-spectral to measure is shown among Fig. 9 (F).
[brightness, colourity, luminous efficiency etc.]
Applied load is than 1/60 pulse voltage between the anode of the full color organic EL light emitting device of embodiment 9~11 and comparative example 6 and negative electrode, and the cross section of each electrode (red, green, blue whole pixels) carries out luminous as a result.
Use beam split radiance meter (CS-1000, MINOLTA system), regulation voltage level to make the brightness of white light be 80nit.Use the beam split radiance instrumentation colourity of this moment surely, meanwhile use the multitester measuring current value.
Then, wiring only makes in the red, green, blue same colored pixels luminous, and it is both full-pixel 1/3 when lighting a lamp that the regulating impulse magnitude of voltage makes the current value of multitester measuring.Use the beam split radiance instrumentation colourity of this moment surely.Measurement result is shown in table 4.
With use panchromatic organic EL light emitting device, make under both full-pixel the same terms when 80nit brightness is lit a lamp, between the anode of the monochromatic organic EL light emitting device of embodiment 9, comparative example 6 (the monochromatic device of embodiment 10,11 and embodiment 9 identical structure) and negative electrode, add 1/60 pulse voltage, use beam split radiance meter (CS-1000, MINLTA system), measure emission spectrum, the brightness of monochromatic organic El device.Measurement result is shown in table 4.
The luminous spectrum of the monochromatic organic EL light emitting device of measuring is illustrated in Figure 14.
Obtain the ratio of luminous intensity with the luminous intensity of yellow~red composition of the blue composition that the formed organic EL of each light-emitting device sends by Figure 14.
Among the embodiment 9 (embodiment 10,11 is also identical), blue composition spike length luminous and that yellow~red composition is luminous is respectively 455nm, 557nm, and the luminous intensity of blue composition is 0.63: 0.37 with the ratio of the luminous intensity of yellow~red composition.
In the comparative example 6, the luminous spike length of blue composition is the luminous long less than spike of 472nm, yellow~red composition.The luminous intensity of blue composition is 1: 0 with the ratio of the luminous intensity of yellow~red composition.
As seen from Figure 14, panchromatic device obtains identical white brightness, and the luminous intensity of necessary monochromatic light-emitting device is compared with comparative example 6, and embodiment 9~11 needs considerably less luminous intensity.
In addition, because the luminous intensity that the colour switching member absorbs is also few, so can suppress the fluorchrome deterioration in the colour switching member.
In addition, it can also be seen that the luminous efficiency of the panchromatic device of embodiment 9~11, electrical efficiency are than comparative example 6 height by table 4.
In addition, the transmitance of the green colour filter of wavelength 540nm is that embodiment 10 efficient more than 80% are higher.
In addition, the transmitance of the red colour filter of wavelength 600nm is the embodiment 9 below 50%, and red colourity x improves 0.67.
[the Continuous Drive test of color light emitting device]
Applied load is used beam split radiance meter (CS-1000, MINOLTA system) than 1/60 pulse voltage between the anode of the panchromatic organic EL light emitting device of embodiment 9~11 and comparative example 6 and negative electrode, and it is 80ni t that regulation voltage level makes brightness.Use the beam split radiance instrumentation colourity of this moment surely, meanwhile use the multitester measuring current value.
Wiring only makes red pixel light a lamp, and it is both full-pixel 1/3 when lighting a lamp that the regulating impulse magnitude of voltage makes the current value of multitester measuring, uses beam split radiance instrumentation at this moment brightness I surely
RedAfter, become the state of lighting a lamp continuously.
In addition, with use panchromatic organic EL light emitting device, when only red pixel being lit a lamp under the identical condition, between the anode of the monochromatic organic EL light emitting device (the monochromatic device of embodiment 10,11 is identical with embodiment 9 structures) of embodiment 9, comparative example 6 and negative electrode, add 1/60 pulse voltage, measure brightness I
MonoAfter, become the state of lighting a lamp continuously.
Then, regulate monochromatic light-emitting device magnitude of voltage and make it with after the brightness at initial stage is consistent, the magnitude of voltage of regulating the colour light-emitting device of burn red makes it to become identical magnitude of voltage, measures the brightness of this moment, and this operation was carried out once in per 50 hours.
The brightness ratio I of the brightness of colour light-emitting device and monochromatic light-emitting device
Red/ I
MonoThrough the time change and to be shown in Figure 15.Among Figure 15, the brightness ratio I at initial stage
Red/ I
MonoBe standardized into 1.Utilize this evaluation can estimate the only degradation of colour switching member.
Thus, brightness ratio I
Red/ I
MonoTime of half decay, comparative example 6 is 13000 hours, and embodiment 9 is 17000 hours, embodiment 11 is 19000 hours, embodiment 10 is 21000 hours, the life-span of partly decaying of red pixel improves greatly.
Above result can be confirmed to be have low power consumption, high efficiency, high colorrendering quality and long colour light-emitting device of life-span.
As above detailed description, can provide red light intensity high color light emitting device according to the present invention.
In addition, can provide colorimetric purity, luminous efficiency height according to the present invention, and long color light emitting device of life-span.
Claims (5)
1. color light emitting device, it is characterized in that comprising the light-emitting component that sends light with blue composition and yellow~red composition, after accepting light that aforementioned light-emitting component sends, the blue conversion member of the coloured light that turns blue respectively, green light, red light, green conversion member, red conversion member
Aforementioned light-emitting component is that the ratio of luminous intensity and the luminous intensity of yellow~red composition of the blue composition that sends is 9: 1~5: 5 a light-emitting component,
With respect to the brightness of light that aforementioned light-emitting component sends, the luminance transformation efficient of aforementioned green conversion member is more than 50%,
Above-mentioned yellow~red composition is the color component of the pigment combinations more than at least a kind in yellow, yellowish orange, orange, reddish orange, the redness.
2. color light emitting device, it is characterized in that comprising the light-emitting component that sends light with blue composition and yellow~red composition, after accepting light that aforementioned light-emitting component sends, the blue conversion member of the coloured light that turns blue respectively, green light, red light, green conversion member, red conversion member
Aforementioned light-emitting component is that the ratio of luminous intensity and the luminous intensity of yellow~red composition of the blue composition that sends is 9: 1~5: 5 a light-emitting component,
With respect to the brightness of light that aforementioned light-emitting component sends, the luminance transformation efficient of aforementioned red conversion member is more than 10%,
Above-mentioned yellow~red composition is the color component of the pigment combinations more than at least a kind in yellow, yellowish orange, orange, reddish orange, the redness.
3. color light emitting device, it is characterized in that comprising the light-emitting component that sends light with blue composition and yellow~red composition, after accepting light that aforementioned light-emitting component sends, the blue conversion member of the coloured light that turns blue respectively, green light, red light, green conversion member, red conversion member
Aforementioned light-emitting component is that the ratio of luminous intensity and the luminous intensity of yellow~red composition of the blue composition that sends is 9: 1~5: 5 a light-emitting component,
Aforementioned red conversion member is by after absorbing the part of light that aforementioned light-emitting component sends along the light removing direction, sending more, the fluorescence conversion layer of long wavelength's fluorescence constitutes with the laminated body that intercepts the color-filter layer that does not need light, aforementioned colour filter is below 60% in the transmitance of wavelength 600nm
Above-mentioned yellow~red composition is the color component of the pigment combinations more than at least a kind in yellow, yellowish orange, orange, reddish orange, the redness.
4. color light emitting device, it is characterized in that comprising the light-emitting component that sends light with blue composition and yellow~red composition, after accepting light that aforementioned light-emitting component sends, the blue conversion member of the coloured light that turns blue respectively, green light, red light, green conversion member, red conversion member
Aforementioned light-emitting component is that the ratio of luminous intensity and the luminous intensity of yellow~red composition of the blue composition that sends is 9: 1~5: 5 a light-emitting component,
Aforementioned green conversion member is by after the part of light removing direction, absorption light that aforementioned light-emitting component sends, sending more, the fluorescence conversion layer of long wavelength's fluorescence constitutes with the laminated body that intercepts the color-filter layer that does not need light, the transmitance of aforementioned colour filter under wavelength 540nm is more than 80%
Above-mentioned yellow~red composition is the color component of the pigment combinations more than at least a kind in yellow, yellowish orange, orange, reddish orange, the redness.
5. the described color light emitting device of each of claim 1~4 is characterized in that aforementioned light-emitting component is an organic electroluminescent device.
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JP2002073234 | 2002-03-15 | ||
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CNB038060795A Division CN100444427C (en) | 2002-03-15 | 2003-03-07 | Color light emitting device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106439736A (en) * | 2011-12-01 | 2017-02-22 | 首尔半导体株式会社 | Indirect lighting apparatus |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106439736A (en) * | 2011-12-01 | 2017-02-22 | 首尔半导体株式会社 | Indirect lighting apparatus |
CN106439736B (en) * | 2011-12-01 | 2019-04-16 | 首尔半导体株式会社 | Indirect illumination |
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