Category: 435294-03-4

Product Details of 435294-03-4. Aromatic compounds can be divided into two categories: single heterocycles and fused heterocycles. Compound: Bis[2-(1-isoquinolinyl-N)phenyl-C](2,4-pentanedionato-O2,O4)iridium(III), is researched, Molecular C35H27N2O2Ir, CAS is 435294-03-4, about Multifunctional Bipolar Materials Serving as Emitters for Efficient Deep-Blue Fluorescent OLEDs and as Hosts for Phosphorescent and White OLEDs. Author is Xu, Jingwen; Liu, Hao; Li, Jinshi; Zhao, Zujin; Tang, Ben Zhong.

Blue luminescent materials are always highly desired for organic light-emitting diodes (OLEDs) but the electroluminescence (EL) performances for most blue emitters still need to be improved in both efficiency and stability. In this work, four bipolar mols. with twisted donor-acceptor structures (PIPD-MP-DPA, PIPD-MP-IMDB, PIPD-MP-DMAC, and PIPD-MP-DPAC) are designed and synthesized. These mols. possess good thermal and electrochem. stabilities, and exhibit strong deep-blue photoluminescence. Their non-doped OLEDs show deep-blue EL emissions at 418-438 nm, and high maximum external quantum efficiencies (ηext,max) of up to 4.4% with a CIEy value of only 0.078. Furthermore, the phosphorescent OLEDs (PhOLEDs) based on PIPD-MP-DPA host achieve excellent ηext,max of 25.9% and 28.0% for green and orange, resp., with small efficiency roll-offs. In addition, PIPD-MP-DPA is also employed to construct hybrid white OLEDs (WOLEDs), giving high ηext,max of 21.6% for two-color WOLEDs, and 16.3% for four-color WOLEDs. In brief, these bipolar materials reveal outstanding EL performances in deep-blue fluorescent, phosphorescent, and hybrid white OLEDs, indicating huge potential applications in display and lighting techniques.

There is still a lot of research devoted to this compound(SMILES：CC1=O[Ir+3]23([N]4=CC=C(C=CC=C5)C5=C4C6=CC=CC=[C-]36)(O=C(C)[CH-]1)[N]7=CC=C(C=CC=C8)C8=C7C9=CC=CC=[C-]29)Product Details of 435294-03-4, and with the development of science, more effects of this compound(435294-03-4) can be discovered.

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Thiazole | C3H3NS – PubChem,
Thiazole | chemical compound | Britannica

Heterocyclic compounds can be divided into two categories: alicyclic heterocycles and aromatic heterocycles. Compounds whose heterocycles in the molecular skeleton cannot reflect aromaticity are called alicyclic heterocyclic compounds. Compound: 435294-03-4, is researched, Molecular C35H27N2O2Ir, about Lead-Halide Perovskite as the Host Material for Solution-Processed Phosphorescent Organic Light-Emitting Diodes, the main research direction is Lead Halide perovskite host material Solution Processed phosphorescent organic.SDS of cas: 435294-03-4.

Phosphorescent organic light-emitting diodes (PhOLEDs) are a kind of highly efficient and solution-processable devices for displays and light sources, which employ phosphorescent material as the guest and the carrier transport material as the host in the emission layer (EML). Organic-inorganic perovskites, which possess unique bipolar carrier transport ability and can be facilely fabricated from solution precursors, are potential candidates for host materials of solution-processed PhOLEDs. Herein, we report the use of lead-halide perovskite, MAPbBr3 (MA = CH3NH3), as the host material of a phosphorescent emitter, bis(1-phenyl-isoquinoline-C2,N)(acetylacetonato)iridium(III) (Ir(piq)2acac). The MAPbBr3:Ir(piq)2acac EML was fabricated through solution-processing, and the corresponding PhOLEDs exhibit bright pure red electroluminescence (EL) originating from Ir(piq)2acac in the MAPbBr3:Ir(piq)2acac EML. Using steady and dynamic luminescence techniques, we prove that MAPbBr3 perovskite acts as the host material in the EML and that the charge transfer plays a critical role in the EL process of Ir(piq)2acac. This work proves the potential of the lead-halide perovskites utilized as the host materials in PhOLEDs.

If you want to learn more about this compound(Bis[2-(1-isoquinolinyl-N)phenyl-C](2,4-pentanedionato-O2,O4)iridium(III))SDS of cas: 435294-03-4, you may wish to communicate with the author of the article,or consult the relevant literature related to this compound(435294-03-4).

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Thiazole | C3H3NS – PubChem,
Thiazole | chemical compound | Britannica

The chemical properties of alicyclic heterocycles are similar to those of the corresponding chain compounds. Compound: Bis[2-(1-isoquinolinyl-N)phenyl-C](2,4-pentanedionato-O2,O4)iridium(III), is researched, Molecular C35H27N2O2Ir, CAS is 435294-03-4, about Full-phosphorescence white organic light-emitting diode with high CRI: the exploitation of positive and reverse emitter sequences, the main research direction is pos reverse emitter sequence white organic light emitting diode.Application of 435294-03-4.

The high color rendering index (CRI) and doping-free four-emitting-layer (EML) white organic light-emitting diode (WOLED) with bipolar spacer layer was researched by different emitter sequence arrangements (pos. emitter sequence: B-G-O-R, reverse emitter sequence: R-O-G-B). The resulting four-emitting-layer WOLEDs with different sequences show opposite CRI trends when voltage increases, which includes the decreased trend in B-G-O-R sequence and increased trend in R-O-G-B sequence. That leads to WOLEDs with different sequences exhibit the highest CRI at obviously distinguishing luminance, which are CRI of 86 @ 531 cd m-2 in B-G-O-R sequence and CRI of 87 @ 13,340 cd m-2 in R-O-G-B sequence, resp. Meanwhile, the B-G-O-R and R-O-G-B sequences devices also exhibit a difference in the power efficiency. The different manifestations of CRI and efficiency characteristics are meticulously analyzed by a combined operation of energy transfer mechanism, carrier trap effect and the movement of carrier recombination zone in EML, resulting in a meaningful concept to design high CRI WOLEDs in different application scene.

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Thiazole | C3H3NS – PubChem,
Thiazole | chemical compound | Britannica

COA of Formula: C35H27N2O2Ir. The mechanism of aromatic electrophilic substitution of aromatic heterocycles is consistent with that of benzene. Compound: Bis[2-(1-isoquinolinyl-N)phenyl-C](2,4-pentanedionato-O2,O4)iridium(III), is researched, Molecular C35H27N2O2Ir, CAS is 435294-03-4, about White organic light emitting diodes based on localized surface plasmon resonance of Au nanoparticles and neat thermally activated delayed fluorescence and phosphorescence emission layers. Author is Mu, Haichuan; Yao, Mengqiang; Wang, Ruibin; Qian, Min; Xie, Haifen; Wang, Dingshu.

White organic light emitting diodes (WOLEDs) incorporating gold (Au) nanoparticles (NPs) beneath PEDOT:PSS hole injection layer (HIL) and employing neat blue DMAC-DPS(B) and green 4CzIPN(G) thermally activated delayed fluorescence (TADF) emission layer (EML) together with sandwiched ultrathin red phosphorescence Ir(piq)2(acac)(R) EML have been fabricated and the effects of the localized surface plasmon resonance (LSPR) of Au NPs and EML thickness on the electroluminescence (EL) performance are investigated. It is found that EML thickness imposes vital influence on the EL performance of the WOLEDs and the WOLEDs with the embedded Au NPs and simple EML structure with optimal thickness of G(15 nm)/R(0.3 nm)/B(15 nm) demonstrate maximum power efficiency (PE), external quantum efficiency (EQE) and color rendering index (CRI) around 11.73 lm/w, 10.51% and 94, indicating the achievement of balance between EL efficiency and CRI by carefully adjustment of EML thickness with the presence of Au NPs. Furthermore, the LSPR effects from the Au NPs on the EL efficiency and CRI have been clearly demonstrated. Especially the green and red light emission is dramatically enhanced leading to enormous improvement of CRI, which can be ascribed to the remarkable enhancement of energy transferring inside G(15 nm)/R(0.3 nm)/B(15 nm) EML proved by the much shortened decaying lifetime at 475 and 550 nm from transient photoluminescence(PL) decaying testing. Almost double enhancement of the total fluorescence efficiency (including prompt fluorescence (PF) and delayed fluorescence (DF)) at 550 nm can be obtained with the assistance of LSPR from Au NPs, which increase from 23.85% to 49.82% and 15.22%-28.86% for resp. EML of G(15 nm)/B(15 nm) and G(15 nm)/R(0.3 nm)/B(15 nm). The decaying dynamics including the DF, PF, phosphorescence (PH) and energy transferring inside G(15 nm)/R(0.3 nm)/B(15 nm) EML with and without embedded Au NPs is discussed in details. The study provides an easy way to utilize the LSPR of Au NPs together with simple neat TADF and phosphorescent EML to develop high quality WOLEDs.

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Thiazole | C3H3NS – PubChem,
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In organic chemistry, atoms other than carbon and hydrogen are generally referred to as heteroatoms. The most common heteroatoms are nitrogen, oxygen and sulfur. Now I present to you an article called Chemically doped hole transporting materials with low cross-linking temperature and high mobility for solution-processed green/red PHOLEDs, published in 2020-07-01, which mentions a compound: 435294-03-4, mainly applied to doped hole transport material crosslinking temperature mobility phosphorescent LED, Computed Properties of C35H27N2O2Ir.

Recently, developing insoluble cross-linkable functional layers plays a vital role for solution-processed organic light emitting diodes (OLEDs). Here, 2 vinyl-based cross-linkable hole transporting materials V-TPAVTPD and V-TPAVCBP are designed and synthesized. Cationic photoinitiator 4-octyloxydiphenyliodonium hexafluoroantimonate (OPPI) is 1st introduced to chem. induce vinyl-based photo crosslinking process, aiming at lowering crosslinking temperature and enhancing hole mobility. Crosslinking can occur at expressly low temperature of 120° with >95% solvent resistance. Hole mobility is markedly enhanced with the value >10-3 cm2 V-1 s-1. When applying hole transporting layers (HTLs) to solution-processed green and red phosphorescent OLEDs, devices exhibit excellent properties. The maximum current efficiency of 54.0 cd A-1 (green), 9.8 cd A-1 (red) and external quantum efficiency of 15.5% (green), 15.0% (red) are obtained when OPPI doped V-TPAVCBP serves as HTL. This low temperature feasible crosslinking process to prepare HTLs with preferable hole mobility promotes the development of OLEDs.

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Thiazole | C3H3NS – PubChem,
Thiazole | chemical compound | Britannica

The preparation of ester heterocycles mostly uses heteroatoms as nucleophilic sites, which are achieved by intramolecular substitution or addition reactions. Compound: Bis[2-(1-isoquinolinyl-N)phenyl-C](2,4-pentanedionato-O2,O4)iridium(III)( cas:435294-03-4 ) is researched.Recommanded Product: 435294-03-4.Wang, Baiqian; Kou, Zhiqi; Tang, Yu; Yang, Feiyu; Fu, Xiang’en; Yuan, Qingsong published the article 《High CRI and stable spectra white organic light-emitting diodes with double doped blue emission layers and multiple ultrathin phosphorescent emission layers by adjusting the thickness of spacer layer》 about this compound( cas:435294-03-4 ) in Organic Electronics. Keywords: color rendering index organic light emitting diode spacer layer. Let’s learn more about this compound (cas:435294-03-4).

The color rendering index (CRI) and Commission Internationale de L’Eclairage coordinate (CIEx,y) are significant parameters for the white organic light-emitting diodes (WOLEDs). We fabricate a series of the phosphorescent WOLED devices, in which there are two doped phosphorescent layers (for blue emission) on both sides of the emitting layer (EML) and three ultrathin phosphorescent layers (for red, orange and green emission) separated by the spacer layers (mCP) in EML. One doped blue emission layer near the hole transport layer contributes to CRI enhancement by increasing the doping concentration (x %) of the blue phosphorescent dye because Dexter energy transfer increases from the blue emission to the red emission. When x is 20, CRI reaches to 90 at 5 V in device A3. Based on device A3, CRI can be further improved to 94 in device B1 with a thinner thickness of the spacer layer (y = 1 nm) between the green emission layer and orange emission layer in EML because Dexter energy transfer from the green emission layer to the orange and red emission layer becomes easier. Although CRI declines, the spectra become more stable by increasing the thickness of the spacer layer (y = 3 nm) in device B2 or decreasing the thickness of the green emission layer (z = 0.05 nm) in device C, in which the CIEx,y coordinate shift is only (0.0214, 0.0102) from 5 V to 8 V.

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Thiazole | C3H3NS – PubChem,
Thiazole | chemical compound | Britannica

Safety of Bis[2-(1-isoquinolinyl-N)phenyl-C](2,4-pentanedionato-O2,O4)iridium(III). The fused heterocycle is formed by combining a benzene ring with a single heterocycle, or two or more single heterocycles. Compound: Bis[2-(1-isoquinolinyl-N)phenyl-C](2,4-pentanedionato-O2,O4)iridium(III), is researched, Molecular C35H27N2O2Ir, CAS is 435294-03-4, about Low efficiency roll-off phosphorescent organic light-emitting devices using thermally activated delayed fluorescence hosts materials based 1, 2, 4-triazole acceptor. Author is Xu, Huixia; Zhao, Yaping; Zhang, Jing; Zhang, Di; Miao, Yanqin; Shinar, Joseph; Shinar, Ruth; Wang, Hua; Xu, Bingshe.

The host in phosphrescent organic light emitting devices (PhOLEDs), showing the thermally activated delayed fluorescence (TADF) charateristic, can effectively overcome the efficiency roll-off. Herein, six bipolar compounds with donor-π-acceptor (D-π-A) and D-π-A-π-D structures have been synthesized using 1,2,4-triazole derivative (TAZ) as an acceptor and phenothiazine (PTZ), phenoxazine (PXZ), and 9, 9-dimethylacridane (DMAC) as donors. The mol. structures were confirmed by 1H NMR, 13C NMR and X-ray single-crystal diffractions. The large steric hindrance endows these mols. with typical TADF features, including the small singlet-triplet energy splitting (ΔEST) of 0.08-0.30 eV and completely spatially sep. highest occupied MOs (HOMO) and the lowest unoccupied MOs (LUMO) electron densities. The PhOLEDs hosted by these novel TADF materials display excellent performances with low efficiency roll-off.

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Thiazole | C3H3NS – PubChem,
Thiazole | chemical compound | Britannica

The preparation of ester heterocycles mostly uses heteroatoms as nucleophilic sites, which are achieved by intramolecular substitution or addition reactions. Compound: Bis[2-(1-isoquinolinyl-N)phenyl-C](2,4-pentanedionato-O2,O4)iridium(III)( cas:435294-03-4 ) is researched.Related Products of 435294-03-4.Yi, Rong-Huei; Lei, Ya-Chun; Tseng, Yeh-Hsiang; Lin, Yi-Fan; Cheng, Yen-Chia; Fang, Yu-Chuan; Ho, Cheng-Yung; Tsai, Wei-Wen; Chang, Chih-Hao; Lu, Chin-Wei published the article 《Imidazolyl-Phenylcarbazole-Based Host Materials and Their Use for Co-host Designs in Phosphorescent OLEDs》 about this compound( cas:435294-03-4 ) in Chemistry – A European Journal. Keywords: imidazolyl phenylcarbazole host phosphorescent organic LED; light emitting device organic phosphorescent imidazolyl phenylcarbazole host; bipolar; co-host; host; imidazolyl-phenylcarbazole; phosphorescent OLEDs. Let’s learn more about this compound (cas:435294-03-4).

In recent years, owing to the demand for high-efficiency phosphorescent organic light-emitting devices (PhOLEDs), many studies were conducted on the development of bipolar host materials. Imidazolyl-phenylcarbazole-based host materials, i. e., i.m.-CzP, i.m.-CzPCz, i.m.-CzPCMe3, and i.m.-OCzP, were synthesized to obtain high-efficiency green and red-emitting PhOLEDs. With i.m.-OCzP as the host, satisfactory peak efficiencies of 22.2 (77.0 cd A-1 and 93.1 lm W-1) and 14.1% (9.0 cd A-1 and 10.1 lm W-1) could be obtained, resp. To further improve the performance of the devices, an electron transport material, bis-4,6-(3,5-di-3-pyridylphenyl)-2-methylpyrimidine (B3PyMPM) was selected to construct a co-hosted system. The efficiency of i.m.-OCzP combined with B3PyMPM forming co-hosts could also achieve high values of 23.0 (80.0 cd A-1 and 98.8 lm W-1) and 16.5% (10.2 cd A-1 and 13.4 lm W-1) for green and red PhOLEDs, resp. These results exhibited that the proposed bipolar hosts have great flexibility in adjusting the carrier balance of EML in OLEDs, demonstrating their ingenious design and high potential.

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Thiazole | C3H3NS – PubChem,
Thiazole | chemical compound | Britannica

Lee, Hyunkoo published the article 《Investigation of charge-transport properties in polymer/fullerene blends using transient electroluminescence technique》. Keywords: polymer fullerene blend charge transport transient electroluminescence technique.They researched the compound: Bis[2-(1-isoquinolinyl-N)phenyl-C](2,4-pentanedionato-O2,O4)iridium(III)( cas:435294-03-4 ).Category: thiazole. Aromatic heterocyclic compounds can be divided into two categories: single heterocyclic and fused heterocyclic. In addition, there is a lot of other information about this compound (cas:435294-03-4) here.

The charge-transport property is one of crucial factors to determine the performance of the polymer-based devices. The hole-transport properties of regioregular poly(3-hexylthiophene-2,5diyl) (P3HT) and [6,6]-Ph C61-butyric acid Me ester (PCBM) blends with two blend ratios were investigated using transient electroluminescence (EL) measurements. For EL, organic light emitting diodes are fabricated with P3HT:PCBM blends as hole-transport layers. To reduce absorption, a red phosphorescent emitter with bis(1-phenylisoquinolinato-N,C2′) iridium(acetylacetonate) [(piq)2Ir(acac)] was used. Transient EL with red color is obtained in spite of P3HT:PCBM absorption and hole mobilities of P3HT:PCBM layers are calculated using delay times in transient EL signals. The hole mobility of pristine P3HT:PCBM with 1:0.8 blend ratio is approx. 6.2 x 10-5 cm2 V-1 · s-1 at approx. 615 kV cm-1, and it decreases when the PCBM ratio increases. The hole mobility of the P3HT:PCBM layer increases to approx. 1.07 x 10-4 cm2 V-1 · s-1 at approx. 615 kV cm-1 when the P3HT:PCBM blend is thermally annealed.

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Thiazole | C3H3NS – PubChem,
Thiazole | chemical compound | Britannica

Liu, Lihui; Chen, Dingfu; Xie, Juxuan; Piao, Junxian; Liu, Yadong; Wang, Wei; Cao, Kun; Chen, Shufen published an article about the compound: Bis[2-(1-isoquinolinyl-N)phenyl-C](2,4-pentanedionato-O2,O4)iridium(III)( cas:435294-03-4,SMILESS:CC1=O[Ir+3]23([N]4=CC=C(C=CC=C5)C5=C4C6=CC=CC=[C-]36)(O=C(C)[CH-]1)[N]7=CC=C(C=CC=C8)C8=C7C9=CC=CC=[C-]29 ).Safety of Bis[2-(1-isoquinolinyl-N)phenyl-C](2,4-pentanedionato-O2,O4)iridium(III). Aromatic heterocyclic compounds can be classified according to the number of heteroatoms or the size of the ring. The authors also want to convey more information about this compound (cas:435294-03-4) through the article.

For organic light-emitting diodes (OLEDs), inkjet printing technol. is being developed as an alternative to the traditional vacuum evaporation, because of its precise patterning, high-efficient material utilization, large-area compatibility and low-cost. In this work, we report a universal ink formulation of small-mol. co-host and binary solvents for red, green and blue phosphorescent OLEDs. Moreover, the effect of hole-transporting layers on the ink spreading, film uniformity and exciton confinement ability is investigated. Furthermore, a large-area (170 mm × 170 mm) and homogeneous light-emitting film is inkjet-printed. Finally, red, green and blue OLEDs are successfully constructed using these optimized ink formulations on the solvent resistance hole-transporting layer. This work can reduce the complexity to adjust the host materials and solvents for different color inks, and could be applied in large-area and low-cost OLED displays with high resolution

In some applications, this compound(435294-03-4)Safety of Bis[2-(1-isoquinolinyl-N)phenyl-C](2,4-pentanedionato-O2,O4)iridium(III) is unique.If you want to know more details about this compound, you can contact with the author or consult more relevant literature.

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Thiazole | C3H3NS – PubChem,
Thiazole | chemical compound | Britannica