- Electron transport material, preparation method thereof and organic light-emitting device
-
The invention discloses an electron transport material, a preparation method thereof and an organic light-emitting device, and belongs to the technical field of chemical and organic light-emitting materials, in the structural general formula of the electron transport material, m and n are independently 0 or 1, and m and n are not 0 at the same time; W, Q and Z are independently C or N, and at least one of W, Q and Z is N; X and Y are independently O or S. By introducing a benzoheterocycle rigid structure, the electron transport material provided by the invention has good film-forming property and thermal stability. The electron transport material provided by the invention has high electron injection and movement rates. The electron transport material can improve the electron transport efficiency from an electron transport layer to a light-emitting layer, thereby improving the light-emitting efficiency of a device, reducing the driving voltage of the device, and enhancing the durability of the obtained organic light-emitting device.
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Paragraph 0067-0071; 0080-0084
(2021/04/14)
-
- Electron transport material containing furan structure as well as preparation method and application thereof
-
The invention discloses an electron transport material containing a furan structure as well as a preparation method and application of the electron transport material, and belongs to the field of preparation and application of organic photoelectric materials. The electron transport material disclosed by the invention has the following structure: the material can be used as an electron transport material of an organic electroluminescent device, the luminous efficiency of the device can be improved, the service life of the device can be prolonged, and the material is suitable for popularizationand application.
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Paragraph 0042-0044
(2021/01/24)
-
- Organic compound with nitrogen-containing spiro structure, and application thereof and organic electroluminescent device
-
The invention relates to the field of organic electroluminescent devices, and discloses an organic compound with a nitrogen-containing spiro structure, and application thereof, and an organic electroluminescent device, wherein the compound has a structure represented by a formula (I). When the organic compound with the nitrogen-containing spiro structure is used in an organic electroluminescent device, the organic compound has relatively low driving voltage, relatively high current efficiency and relatively long service life.
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Paragraph 0144-0147; 0155-0157
(2020/12/05)
-
- Electron transporting and hole blocking organic material and application thereof in thin-film light-emitting diode
-
The invention provides an electron transporting and hole blocking material with an A-D-A link structure as a core. The material is applied to a thin-film semiconductor light-emitting diode, for example, an organic light-emitting diode and a quantum dot thin-film light-emitting diode; and the molecule of the material takes bipolar carbazole and a derivative group thereof as electron donating centers, so a relatively high triplet state energy level can be maintained to ensure exciton blocking capability.
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Paragraph 0005
(2020/11/02)
-
- An electroluminescent compound and an electroluminescent device comprising the same
-
The present invention relates to an organic electroluminescent compound represented by chemical formula 1. An organic electroluminescent device comprising the organic electroluminescent compound of the present invention is able to be operated under a lower driving voltage compared to a conventional device with a phosphorescent hast material, and has excellent power efficiency, luminous efficiency, and service life.
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Paragraph 0198-0205
(2021/02/02)
-
- Heterocyclic com pounds and organic light-emitting diode including the same
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The present invention relates to a novel heterocyclic compound and an organic electroluminescent device comprising the same. The heterocyclic compound is represented by the following Chemical Formula 1, and the organic electroluminescent device including the heterocyclic compound has excellent driving voltage, luminous efficiency, and lifespan properties. Chemical Formula 1. (by machine translation)
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Paragraph 0607; 0620-0625
(2021/01/19)
-
- Heterocyclic com pounds and organic light-emitting diode including the same
-
The present invention relates to a novel heterocyclic compound and an organic light emitting element including the same as a light-emitting material and, more specifically, to a heterocyclic compound having excellent light emission properties, such as a driving voltage, luminous efficiency, and lifetime, and an organic light emitting element including the same. Since the heterocyclic compound according to the present invention is more stable compared to conventional materials and has the excellent light emission properties for a driving voltage or current efficiency, the organic light emitting element including the same can be driven with a low-voltage and light emission efficiency can be improved.
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Paragraph 0306-0311
(2021/02/02)
-
- Nitrogen-containing compound, electronic element, and electronic device
-
The invention belongs to the technical field of organic materials, and provides a nitrogen-containing compound, an electronic element and an electronic device. The structure of the nitrogen-containingcompound is shown as a formula 1, wherein X1, X2 and X3 are respectively and independently selected from C or N, and at least one of X1, X2 and X3 is N; wherein R1, R2 and R3 are respectively and independently selected from hydrogen or a group shown in a chemical formula 1-1, and only one of R1, R2 and R3 is a group shown in a chemical formula 1-1. The nitrogen-containing compound can improve theperformance of an electronic component.
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Paragraph 0197-0200; 0217
(2020/07/24)
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- Method for synthesizing a 1,3,5-triazine derivative
-
A method for synthesizing a 1,3,5-triazine derivative specifically includes the following steps: dissolving a benzyl chloride compound and an amidine hydrochloride compound in an organic solvent, wherein the amount-of-substance ratio of the benzyl chloride compound to the amidine hydrochloride compound is 1:(1-2); adding an oxidizing agent and an alkaline medium, and stirring at 100-130 DEG C for12-24 hours for reaction to obtain a 1,3,5-s-triazine derivative; and subjecting the 1,3,5-s-triazine derivative to cooling, extracting, drying and column chromatography isolation to obtain a pure product. The method has the advantages that reaction conditions are mild, the reaction activity is high, the reaction yield reaches 90%, the product selectivity is high, and the substrate expansion rangeis wide; transition metals, especially precious metal compounds, are avoided in a catalytic system, the cost is low, the method is safe and convenient, and the reaction system has less environmentalpollution.
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Paragraph 0082-0087
(2019/08/07)
-
- An alternatively metal-free synthesis of 1,3,5-triazines or 1,2,4-thiadiazoles from benzyl chlorides and benzylamines mediated by elemental sulfur
-
An elemental sulfur mediated reaction of benzyl chlorides with benzylamines is developed, which allows the practical synthesis of valuable 1,3,5-triazines. This protocol that is metal free, ligand free, and uses inexpensive elemental sulfur as oxidant or raw material displays mild reaction conditions, a broad substrate scope and moderate to good yields. Moreover, the modified sulfur-mediated reaction system can also be used to synthesize 1,2,4-thiadiazoles, by simply switching the stoichiometry of sulfur powder from 0.75 equivalents to 5 equivalents.
- Zhang, Yurong,Liu, Yafei,Zhang, Jun,Gu, Ren,Han, Shiqing
-
supporting information
(2019/11/11)
-
- Base-free synthesis of 1,3,5-triazines via aerobic oxidation of alcohols and benzamidine over a recyclable OMS-2 catalyst
-
By using 4Na2SO4·2H2O2·NaCl as a reductant, manganese oxide octahedral molecular sieve (OMS-2)with enhanced surface area and mixed valence was prepared successfully. OMS-2 showed excellent catalytic ability towards aerobic oxidative synthesis of 1,3,5-triazines from benzyl alcohols and benzamidine. Methyl benzenes, DMF and DMSO could also be employed as substrates to react with benzamidine offering triazines under the heterogeneous conditions. The catalytic system features base-free conditions, broad substrate scope, high chemoselectivity, operational simplicity, catalyst recyclability and utilization of O2 as the green oxidant.
- Shen, Jian,Meng, Xu
-
-
- Compound, photoelectric conversion device, and electronic device
-
The invention provides a compound shown as a formula I, a photoelectric conversion device and an electronic device, and belongs to the technical field of organic materials. The compound can reduce theworking voltage of the photoelectric conversion device, improve the luminous efficiency of the photoelectric conversion device and prolong the service life of the device.
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Page/Page column 0093; 0094
(2020/01/08)
-
- Asymmetrically-substituted soluble pyridine derivatives, preparation thereof, n-doped electron transport layer and application of n-doped electron transport layer
-
The invention belongs to the technical field of organic small molecule functional materials, and discloses asymmetrically-substituted soluble pyridine derivatives, preparation thereof, a n-doped electron transport layer and application of the n-doped electron transport layer. The asymmetrically-substituted soluble pyridine derivatives are one or more shown in a formula I or a formula II. The invention also discloses a preparation method of the asymmetrically-substituted soluble pyridine derivatives. The asymmetrically-substituted soluble pyridine derivatives can be applied to preparation of anorganic electron transporting material. The organic electron transporting material includes one or more of the asymmetrically-substituted soluble pyridine derivatives. The n-doped electron transportlayer is obtained through n-doping of the organic electron transporting material. The organic electron transporting material has high electron mobility, the electron transport layer is formed throughn-doping, and can be applied to an organic electroluminescent device, and high luminous efficiency and high stability are achieved; and the n-doped electron transport layer can be applied to the organic electroluminescent device.
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-
Paragraph 0068; 0084-0086
(2019/07/30)
-
- An organic semiconductor body material and its organic light-emitting diode application
-
The invention relates to an organic light emitting diode (OLED). The OLED is characterized by consisting of a negative pole, a positive pole and an organic semiconductor layer arranged between the negative pole and the positive pole, wherein the organic semiconductor layer comprises an organic light-emitting layer which is prepared from an organic semiconductor main material, and the main material has a general formula as shown in a formula I described in the description; main material is characterized in that an aromatic hybrid fusion ring is connected with a nitrogen atom of a developed quinary aromatic heterocycte indeno-carbazole, so that the charge balance injection and luminescent stability are better improved, and high-stability, high-efficiency and long-life luminescence property can be obtained.
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-
Paragraph 0075; 0131; 0132
(2018/11/22)
-
- 1. 3, 5 - Triazine derivative and its preparation method and application (by machine translation)
-
The invention belongs to the field of organic synthesis technology, and in particular relates to 1, 3, 5 - triazine derivative and its preparation method and application. The present invention provides a process for preparing 1, 3, 5 - triazine derivatives, using benzaldehyde derivatives and benzamidine hydrochloride derivatives coupled closed loop the reaction, reaction in the cupric acetate or nickel acetate under the catalysis, yield is as high as 80%, recrystallization can be purification, material cost is relatively low, can effectively synthesized and amplifying the production. The present invention provides a 1, 3, 5 - triazine derivatives can be used as synthetic intermediates, further widens the 1, 3, 5 - triazine derivatives. (by machine translation)
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Paragraph 0068; 0069; 0070; 0071
(2018/07/30)
-
- Synthesis, Spectra, and Theoretical Investigations of 1,3,5-Triazines Compounds as Ultraviolet Rays Absorber Based on Time-Dependent Density Functional Calculations and three-Dimensional Quantitative Structure-Property Relationship
-
A series of 1,3,5-triazines were synthesized and their UV absorption properties were tested. The computational chemistry methods were used to construct quantitative structure-property relationship (QSPR), which was used to computer aided design of new 1,3,5-triazines ultraviolet rays absorber compounds. The experimental UV absorption data are in good agreement with those predicted data using the Time-dependent density functional theory (TD-DFT) [B3LYP/6–311 + G(d,p)]. A suitable forecasting model (R > 0.8, P 0.0001) was revealed. Predictive three-dimensional quantitative structure-property relationship (3D-QSPR) model was established using multifit molecular alignment rule of Sybyl program, which conclusion is consistent with the TD-DFT calculation. The exceptional photostability mechanism of such ultraviolet rays absorber compounds was studied and confirmed as principally banked upon their ability to undergo excited-state deactivation via an ultrafast excited-state proton transfer (ESIPT). The intramolecular hydrogen bond (IMHB) of 1,3,5-triazines compounds is the basis for the excited state proton transfer, which was explored by IR spectroscopy, UV spectra, structural and energetic aspects of different conformers and frontier molecular orbitals analysis.
- Wang, Xueding,Xu, Yilian,Yang, Lu,Lu, Xiang,Zou, Hao,Yang, Weiqing,Zhang, Yuanyuan,Li, Zicheng,Ma, Menglin
-
p. 707 - 723
(2018/05/05)
-
- The amidine using triazine compound production (by machine translation)
-
[A] used in the synthesis of charge transport materials useful as the organic electroluminescent element of simple and inexpensive manufacturing method a triazine compound. Acyl amidine compound or an acid compound [a], the compound is preferably reacted in the presence of an amidine compound [...], the triazine compound of the formula illustrated in manufacture. [Drawing] no (by machine translation)
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Paragraph 0140-0141
(2018/04/20)
-
- Organic micro-molecular electron transport material and preparation thereof, and n-doped electron transport layer and application thereof
-
The invention belongs to the technical field of electron transport materials and discloses an organic micro-molecular electron transport material and preparation thereof, and an n-doped electron transport layer and application thereof. The organic micro-molecular electron transport material has a structure shown as the formula I. The preparation method of the organic micro-molecular electron transport material comprises (1) subjecting 2-chloro-4, 6-diphenyl-1, 3, 5-triazine and 3-bromo-phenylboronic acid to coupling reaction, and then performing subsequent processing to obtain a bromine-containing intermediate; (2) subjecting the bromine-containing intermediate and bis-(pinacolato)-diboron to Suzuki reaction and then performing subsequent processing to obtain a borate intermediate; (3) subjecting the borate intermediate and 3-bromo-1, 10-phenanthroline to coupling reaction and performing subsequent processing to obtain the organic micro-molecular electron transport material. The organic micro-molecular electron transport material is simple in structure and high in thermostability and topographic stability; when n-doped, the organic micro-molecular electron transport material can beprepared into the n-doped electron transport layer, which achieves high luminous efficiency and stability when applied to organic electroluminescence devices.
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Paragraph 0054; 0058; 0059; 0060
(2018/09/11)
-
- NOVEL ORGANIC HETEROCYCLIC COMPOUND AND LIHGHT-EMITTING DIODE COMPRISING SAME
-
The present disclosure relates to an organic compound represented by Chemical Formula A or B, and an organic light-emitting diode comprising the same.
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-
Paragraph 0156-0157
(2018/11/26)
-
- ORGANIC COMPOUND, AND ORGANIC LIGHT EMITTING DIODE AND ORGANIC LIGHT EMITTING DISPLAY DEVICE INCLUDING THE SAME
-
The present invention provides an organic compound for an organic light emitting diode. An example of the organic compound is represented by:
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Paragraph 0211; 0212
(2018/05/24)
-
- Non-doped thermally activated delayed fluorescent organic light-emitting diodes using an intra- and intermolecular exciplex system with a: Meta -linked acridine-triazine conjugate
-
We report OLEDs utilizing non-doped TADF emitters, 10-(3-(4,6-diphenyl-1,3,5-triazin-2-yl)phenyl)-9,9-dimethyl-9,10-dihydroacridine (AmT) and 10-(3′-(4,6-diphenyl-1,3,5-triazin-2-yl)-[1,1′-biphenyl]-3-yl)-9,9-dimethyl-9,10-dihydroacridine (AmmT). These two emitters are composed of electron donor (acridine) and acceptor (triphenyltriazine) moieties, which are connected at the meta positions so that intra- and intermolecular charge transfer (CT) states can be induced through exciplex-like interactions between the same emitters. A neat film of AmmT forms intermolecular CT state-induced exciplexes more favorably than AmT because of the packing benefits and relatively shorter radiative lifetime of AmmT. Electroluminescent devices using AmmT as an emitter exhibit an external quantum efficiency (EQE) over 18%, which is much better than the EQE value for devices using AmT. This is the first example of a non-doped TADF system using a single molecule-based exciplex as a dominant exciton source.
- Jeong, Seongjin,Lee, Youngnam,Kim, Joon Ki,Jang, Du-Jeon,Hong, Jong-In
-
supporting information
p. 9049 - 9054
(2018/09/11)
-
- COMPOUND FOR ORGANIC ELECTRONIC ELEMENT, ORGANIC ELECTRONIC ELEMENT COMPRISING THE SAME, AND ELECTRONIC DEVICE THEREOF
-
With a compound represented by formula 1, electrode number 1, number 2 and number 1 and number 2 electrode including a solvent for organic electroluminescence device including electronic device element and which is disclosure, a compound represented by formula 1 organic layer, organic of the electrical component to a predetermined driving voltage, luminous efficiency can be on the organic layer. (by machine translation)
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Paragraph 0112; 0150-0153
(2018/10/31)
-
- Biscarbazole derivative host materials and green emitter for OLED emissive region
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An organic electroluminescence device utilizes a novel combination comprising one or more biscarbazole derivative compounds as the phosphorescent host material in combination with a green phosphorescent dopant material in the light emitting region of the device, where the biscarbazole derivative compounds are represented by a formula (1A) or (1B) below; where A1 represents a substituted or unsubstituted nitrogen-containing heterocyclic group having 1 to 30 ring carbon atoms; A2 represents a substituted or unsubstituted aromatic hydrocarbon group having 6 to 30 ring carbon atoms, or substituted or unsubstituted nitrogen-containing heterocyclic group having 1 to 30 ring carbon atoms; X1 and X2 each are a linking group; Y1 to Y4 each represent a substituent; p and q represent an integer of 1 to 4; and r and s represent an integer of 1 to 3; and the green phosphorescent dopant material is a phosphorescent organometallic complex having a chemical structure represented by LL′L″M wherein M is a metal that forms octahedral complexes, L, L′, and L″ are equivalent or inequivalent bidentate ligands wherein each L comprises a substituted or unsubstituted phenylpyridine ligand coordinated to M through an sp2 hybridized carbon and N; and, one of L, L′ and L″ is different from at least one of the other two.
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Page/Page column 97
(2018/05/24)
-
- NOVEL TRIAZINE COMPOUND, AND ORGANIC ELECTRONIC ELEMENT AND PLANT-GROWING LIGHTING THAT USE THE SAME
-
PROBLEM TO BE SOLVED: To provide a triazine compound which has a high triplet energy level and excellent heat resistance, and can be used as an organic electronic element material realizing an element with high efficiency, low voltage and a long life. SOLUTION: In the triazine compound, as represented by the general formula [1] in the figure, a triazine backbone moiety is linked to a dibenzofuran or dibenzothiophene backbone moiety via a biphenyl backbone moiety, where X is an oxygen atom or sulfur atom. SELECTED DRAWING: None COPYRIGHT: (C)2018,JPO&INPIT
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Paragraph 0066
(2018/07/28)
-
- ORGANIC OPTOELECTRONIC DEVICE AND DISPLAY DEVICE
-
An organic optoelectronic device includes an anode and a cathode facing each other, an emission layer between the anode and the cathode, a hole transport layer between the anode and the emission layer, and a hole transport auxiliary layer between the hole transport layer and the emission layer, wherein the emission layer includes at least one first compound represented by Chemical Formula 1; and at least one second compound represented by Chemical Formula 2, and the hole transport auxiliary layer includes at least one third compound represented by Chemical Formula 3. A display device including the organic optoelectronic device is provided Chemical Formulae 1 to 3 are the same as the detailed description.
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Paragraph 0197-0200
(2017/04/11)
-
- ORGANIC COMPOUND AND COMPOSITION AND ORGANIC OPTOELECTRONIC DEVICE AND DISPLAY DEVICE
-
The present invention relates to an organic compound which is represented by a combination of chemical formula 1 and chemical formula 2, a composition which contains the organic compound, and an organic optoelectronic device and a display device which contains the organic compound or the composition. In chemical formula 1 or chemical formula 2, L^1 to L^3, R^1 to R^8, and Ar^1 to Ar^3 are the same as defined in the specification.COPYRIGHT KIPO 2017
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Paragraph 0390; 0392-0395
(2017/07/26)
-
- ORGANIC OPTOELECTRONIC DEVICE AND DISPLAY DEVICE
-
An organic optoelectronic device and a display device including the same, the organic optoelectronic device including: an anode and a cathode facing each other; a light-emitting layer positioned between the anode and the cathode; a hole transport layer positioned between the anode and the light-emitting layer; an auxiliary hole transport layer positioned between the hole transport layer and the light-emitting layer; an electron transport layer positioned between the cathode and the light-emitting layer; and an auxiliary electron transport layer positioned between the electron transport layer and the light-emitting layer, wherein the auxiliary electron transport layer includes at least one kind of first compound represented by chemical formula 1, and the auxiliary hole transport layer includes at least one kind of second compound represented by a combination of a moiety represented by chemical formula 2, a moiety represented by chemical formula 3 and a moiety represented by chemical formula 4.
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-
Paragraph 0132; 0133; 0134; 0135
(2017/08/26)
-
- ORGANIC OPTOELECTRONIC DEVICE AND DISPLAY APPARATUS
-
The present invention relates to an organic optoelectronic device and a display apparatus comprising same, the organic optoelectronic device comprising: an anode and a cathode facing each other; a light-emitting layer located between the anode and cathode; a hole transport layer located between the anode and light-emitting layer; an auxiliary hole transport layer located between the hole transport layer and light-emitting layer; an electron transport layer located between the cathode and light-emitting layer; and an auxiliary electron transport layer between the electron transport layer and light-emitting layer, wherein the auxiliary electron transport layer comprises at least one type of a first compound expressed by a particular Chemical Formula, and the auxiliary hole transport layer comprises at least one type of a second compound expressed by a particular Chemical Formula.
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Paragraph 0184-0187
(2017/12/15)
-
- COMPOUND FOR ORGANIC ELECTRIC ELEMENT, ORGANIC ELECTRIC ELEMENT USING THE SAME, AND AN ELECTRONIC DEVICE THEREOF
-
The present invention refers to emitting efficiency, stability and life the novel compound and organic electrical component, a electronic device number [...] substrate. (by machine translation)
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Paragraph 0288-0296
(2018/02/10)
-
- Organic compound, and Organic light emitting diode and Organic light emitting diode display device including the same
-
Provided is an organic compound which has a core with a heterocyclic structure including at least two nitrogen, and also ensures high luminous efficiency. The organic compound can be used as a common host for light-emitting material layers, electron transfer layers, and an electrode injection layers, thereby simplifying production processes for organic light-emitting diodes and organic light-emitting diode devices, and ensuring high luminous efficiency with low driving voltage.COPYRIGHT KIPO 2017
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Paragraph 0198; 0203-0206
(2018/01/09)
-
- COMPOUND, ORGANIC OPTOELECTRIC DEVICE AND DISPLAY DEVICE
-
The present invention relates to a compound represented by chemical formula 1, an organic optoelectronic diode comprising the same, and a display device comprising the organic optoelectronic diode. In the chemical formula 1, X^1 to X^4, L^1, L^2, and R^1 to R^4 are the same as defined in the specification. By using the compound of the present invention, an organic optoelectronic diode having characteristics of high efficiency and long lifetime can be realized.
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- Organic compound for optoelectric device and composition for optoelectric device and organic optoelectric device and display device
-
Disclosed are a first compound for an organic optoelectric device represented by a combination of Chemical Formula I -1 and Chemical Formula I -2 and a composition for an organic optoelectric device including the first compound for an organic optoelectric device and at least one second compound for an organic optoelectric device having a moiety represented by Chemical Formula II, and an organic optoelectric device and a display device including the same. The detailed descriptions of the Chemical Formula I -1, Chemical Formula I -2 and Chemical Formula II are the same as described in the detailed description. According to the invention, the organic optoelectric device with high efficiency and long usage life can be obtained.
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Paragraph 0326; 0327; 0328; 0329
(2016/10/09)
-
- COMPOUND FOR ORGANIC ELECTROLUMINESCENT ELEMENT AND ORGANIC ELECTROLUMINESCENT ELEMENT
-
PROBLEM TO BE SOLVED: To provide a compound for an organic electroluminescent element, which is excellent in solubility in a solvent and is capable of improving film-forming properties, and to provide an organic electroluminescent element using the same. SOLUTION: The compound for an organic electroluminescent element is represented by general formula (1) (where L represents a divalent heterocyclic group or a substituted or unsubstituted phenylene group; Rn represents an alkyl group having 1-12 carbon atoms, an alkoxy group having 1-12 carbon atoms, an aryl group having 6-50 ring-forming carbon atoms, or a cycloalkyl group having 3-6 carbon atoms; n represents an integer of 1-4; CZ represents a carbazole skeleton-containing group; AZ represents an azine skeleton-containing group; and L and Rn may be bonded together to form a condensed ring). SELECTED DRAWING: None COPYRIGHT: (C)2016,JPOandINPIT
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Paragraph 0087-0089
(2018/10/10)
-
- COMPOUND, ORGANIC LiGHT EMITTING DIODE INCLUDING THE SAME, COMPOSITION INCLUDING THE SAME AND DISPLAY INCLUDING THE ORGANIC LiGHT EMITTING DIODE
-
The present invention relates to a compound, an organic light emitting diode including the same, a composition for the organic light emitting diode including the same, and a display device comprising the organic light emitting diode. The present invention is to provide a compound which can provide an organic photoelectron diode having high efficiency and long service life. To this end, provided is a compound for an organic photoelectron diode represented by chemical formula 1.
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Paragraph 0261; 0269
(2016/10/09)
-
- COMPOUND, ORGANIC OPTOELECTRONIC DEVICE AND DISPLAY DEVICE
-
The present invention relates to a compound, an organic photoelectronic device comprising the same, and a display device comprising the organic photoelectronic device. The compound is represented by chemical formula 1. In the chemical formula 1, R1 to R5, X1, and X2 is the same as defined in the specification.COPYRIGHT KIPO 2015
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Paragraph 0206; 0230
(2016/10/09)
-
- COMPOUND, ORGANIC OPTOELECTRIC DEVICE AND DISPLAY DEVICE
-
The present invention relates to a compound denoted by chemical formula 1, an organic photoelectron device including the compound and a display device including the organic photoelectron device. In chemical formula 1, L^1 to L^6 and R^1 to R^6 are described as the same as the patent specification.COPYRIGHT KIPO 2015
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Paragraph 0168; 0169; 0170; 0171
(2016/11/28)
-
- Aromatic compound and organoelectroluminescent device comprising the compound
-
The present invention refers to a [formula 1] to [formula 3] and an aromatic compound represented by including organic light emitting diode is provided, the present invention according to the organic light emitting display element including aromatic compounds whose driving voltage is low has excellent high luminous efficiency down good cycle property. [Formula 3] [formula 2] [formula 1] (by machine translation)
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Paragraph 0365-0370
(2016/10/07)
-
- Organic electroluminescent device employing organic light emitting compound as light emitting material
-
Provided is an organic electroluminescent device that exhibits an efficient host-dopant energy transfer mechanism, and thus, expresses a certain high-efficiency electroluminescent performance, based on improved electron density distribution. The organic electroluminescent device also overcomes low initial efficiency and short operation life property, and secures high-performance electroluminescent performance with high efficiency and long life property for each color.
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Paragraph 0076
(2015/04/15)
-
- An electroluminescent compound and an electroluminescent device comprising the same
-
The present invention relates to an organic light emitting compound applied to an organic electroluminescent device. The organic light emitting compound is represented by chemical formula 1 or chemical formula 2, and when being applied as a phosphorescent host compound in a hole transporting functional layer or a light emitting layer, provides an organic electroluminescent device having excellent driving voltage, brightness, and long lifespan.COPYRIGHT KIPO 2016
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Paragraph 0173; 0174; 0175
(2016/10/07)
-
- COMPOUND, LIGHT EMITTING MATERIAL, AND ORGANIC LIGHT EMITTING ELEMENT
-
A compound represented by the general formula (1) is useful as a light-emitting material. In the general formula (1), Ar1 to Ar3 represent an aryl group, provided that at least one thereof represents an aryl group substituted by a group represented by the general formula (2). In the general formula (2), R1 to R8 represent a hydrogen atom or a substituent; Z represents O, S, O=C or Ar4-N; and Ar4 represents an aryl group.
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Paragraph 0100-0101
(2014/12/12)
-
- BIS-CARBAZOLE DERIVATIVE, MATERIAL FOR ORGANIC ELECTROLUMINESCENT ELEMENT AND ORGANIC ELECTROLUMINESCENT ELEMENT USING SAME
-
A biscarbazole derivative of the invention is represented by a formula (1A or (1B) below. In the formula (1A) or (1B): A1 represents a substituted or unsubstituted nitrogen-containing heterocyclic group having 1 to 30 ring carbon atoms; A2 represents a substituted or unsubstituted aromatic hydrocarbon group having 6 to 30 ring carbon atoms, or substituted or unsubstituted nitrogen-containing heterocyclic group having 1 to 30 ring carbon atoms; X1 and X2 each are a linking group; Y1 to Y4 each represent a substituent; p and q represent an integer of 1 to 4; and r and s represent an integer of 1 to 3.
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Page/Page column 118-119
(2012/02/15)
-