共查询到18条相似文献,搜索用时 78 毫秒
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有机电致发光(OLEDs)因其具有驱动电压低、主动发光、亮度高、视角宽、响应快、耐冲击与震动等特点,在平板显示与照明领域有着广阔的应用前景。磷光有机电致发光二极管(PhOLEDs)由于能够同时利用三重态和单重态激子,内量子效率从理论上可达到100%,从而克服了传统荧光OLEDs只利用单重态激子时效率25%的限制,在过去的几十年里受到业内人士的极大关注。但要实现三重态磷光,通常需要将重金属原子与主体材料进行掺杂,而重金属配合物的磷光寿命相对较长,容易引起浓度猝灭和三重态-三重态湮灭,所以需要找到合适的主体材料与重金属的磷光发射体进行掺杂来减少上述因素的影响从而得到高性能的电致磷光器件。本文综述了近年来国内外蓝色有机电致磷光主体材料的研究状况,并对空穴传输型、电子传输型和双极传输型的蓝色磷光主体材料按照官能团的不同进行了分类总结和评述,并对其光物理性质、热学性质、电化学性质及器件性能等作了详细归纳比较,最后展望了蓝色有机电致磷光主体材料的前景和发展趋势。 相似文献
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设计并合成了一种由咔唑和噁二唑基团构成的,具有双极载流子传导特性的新型主体材料C1PBD。通过对C1PBD的光物理和电化学性能进行研究,证明这种新型的双极主体材料可以用作为蓝色荧光器件的主体材料.利用传统蓝色荧光掺杂材料TBPe,制备了C1PBD作为主体材料的器件,并对其性能进行了表征,器件开启电压约为3.2 V,最大电流效率达到2.26 cd/A,器件表现出稳定的蓝色发光,CIE值稳定在(0.14,0.14),展现了C1PBD作为主体材料的良好性能. 相似文献
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金属配合物磷光材料因为其能同时利用单线态激子和三线态激子,引起了人们广泛关注。聚合物磷光材料(polymer phosphorescent materials,PPMs)同时具备小分子金属配合物的良好发光特性和高分子的优异物理性能,如容易挠曲、可溶液加工和良好的成膜性。本文综述了近年来聚合物磷光材料的研究进展,总结了聚合物磷光材料的合成方法及其在有机电致发光器件(OLED)方面的应用。最后从电磷光发光聚合物的分子结构设计出发,在电磷光发光聚合物领域业已取得进展的基础上,分析了电磷光发光聚合物在电致发光领域应用中存在的一些问题,并展望了电磷光聚合物今后的发展方向。 相似文献
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设计并合成了一种新型的香豆素衍生物,3,3-’(1,3-苯基)双(7-乙氧基-4-甲基香豆素)(mEMCB),并系统地对该香豆素衍生物进行了结构表征、光物理性能、热物理性能及电化学性能的研究.mEMCB具有较高的三重态能级(2.42eV),可敏化绿色、红色磷光掺杂材料.同时,mEMCB还具有较好的热稳定性(Tg:79.72℃,Td:361.49℃),其Tg明显高于目前广泛使用的磷光主体材料CBP.研究结果表明,mEMCB是一个潜在的可以用于绿色和红色磷光有机电致发光器件的主体材料. 相似文献
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报道了应用于溶液法制备器件的小分子蓝光主体材料2-叔丁基-9,10-二(9,9-二正丙基芴基)蒽(TBPFA), 合成路线如Scheme 1所示, 该化合物具有较高的荧光量子效率,以它作为主体材料, 采用旋涂法制备了掺杂与非掺杂型单层器件, 并对器件性能进行了初步研究. 相似文献
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Dr. Sung‐Yu Ku Prof. Wen‐Yi Hung Chung‐Wen Chen Shih‐Wei Yang Ejabul Mondal Prof. Yun Chi Prof. Ken‐Tsung Wong 《化学:亚洲杂志》2012,7(1):133-142
In this study, we synthesized and characterized a series of spirobifluorene‐based bipolar compounds (D2 ACN, DNPACN, DNTACN, and DCzACN) in which a dicyano‐substituted biphenyl branch, linked orthogonally to a donor biphenyl branch bearing various diarylamines, acted as an acceptor unit allowing fine‐tuning of the morphological stability, triplet energy, bipolar transport behavior, and the HOMO and LUMO energy levels. The promising physical properties of these new compounds, together with their ability to transport electrons and holes with balanced mobilities, made them suitable for use as host materials in highly efficient phosphorescent organic light‐emitting diodes (PhOLEDs) with green iridium‐based‐ or red osmium‐based phosphors as the emitting layer (EML). We adopted a multilayer structure to efficiently confine holes and electrons within the EML, thus preventing exciton diffusion and improving device efficiency. The device incorporating D2 ACN doped with the red emitter [Os(bpftz)2(PPhMe2)2] (bpftz=3‐(trifluoromethyl)‐5‐(4‐tert‐butylpyridyl)‐1,2,4‐triazolate) gave a saturated red electrophosphorescence with CIE coordinates of (0.65, 0.35) and remarkably high efficiencies of 20.3 % (21 cd A?1) and 13.5 Lm W?1 at a practical brightness of 1000 cd m?2. 相似文献
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Selin Pıravadılı Ceylan Doyranlı Sinem Altınısık Hakan Bilgili Betül Canımkurbey Sermet Koyuncu 《Journal of polymer science. Part A, Polymer chemistry》2021,59(16):1829-1840
Since limited examples are in the literature in which both organic light-emitting diodes (OLEDs) and electrochromic (EC) applications were performed using the same conjugated polymer, we presented comprehensive EC and electroluminescence (EL) studies of fluorene-based electroactive polymer (e.g., CFP6) consisting of a bicarbazole pendant moiety with quinoxaline as an acceptor bridge. CFP6 was synthesized by a Suzuki cross-coupling polymerization reaction and utilized as an active and emissive layers of the electrochromic device (ECD) and OLED, respectively, due to its high photoluminescence quantum yield intensity and fine thin film forming capability. The optical, electrochemical, cyclic voltammetry measurements, and density functional theory calculations were realized. Electrochemical cross-linking process was applied over the electroactive carbazole subunit of the CFP6 polymer. After the crosslinking process, EC performance was greatly improved. On the other hand, light emission and EL characteristics of OLEDs based on CFP6 emissive layer were realized in detail with six different device architectures to understand light output profile behavior. As a result, CFP6 emitted bright greenish yellow emission with a maximum brightness of 1777 cd/m2 at 215 mA/cm2 in the indium tin oxide (ITO)/poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS)/CFP6:%10 4,4′-bis(N-carbazolyl)-1,1′-biphenyl (CBP)/Alq3/LiF/Al device architecture. 相似文献
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采用具有优良电子传输特性的铍金属配合物二合铍(Ⅱ)(Bempp)作为磷光客体材料二(2-苯基吡啶)(N,N'-二异丙基苯甲脒)合铱(Ⅲ)(PPP)的主体材料制备磷光电致发光器件. 与经典的空穴传输型主体材料4,4'-二(N-咔唑)联苯(CBP)相比, Bempp更有利于空穴、 电子的注入及传输的平衡, 与PPP间存在更高效的能量转移. 该器件的各项性能指标, 包括最大效率和流明效率(63.1 cd/A和54.0 lm/W), 均明显高于采用CBP作为主体材料的磷光器件. 相似文献
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Dr. Manuela Wallesch Anand Verma Dr. Charlotte Fléchon Dr. Harald Flügge Dr. Daniel M. Zink Dr. Stefan M. Seifermann Dr. José M. Navarro Dr. Tonya Vitova Dr. Jörg Göttlicher Dr. Ralph Steininger Dr. Lothar Weinhardt Manuel Zimmer Prof. Dr. Markus Gerhards Prof. Dr. Clemens Heske Prof. Dr. Stefan Bräse Dr. Thomas Baumann Dr. Daniel Volz 《Chemistry (Weinheim an der Bergstrasse, Germany)》2016,22(46)
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Jiwon Yoon Seong Keun Kim Hyung Jong Kim Dr. Suna Choi Sang Won Jung Hyuna Lee Dr. Jun Yun Kim Dr. Dae-Wi Yoon Dr. Chang Wook Han Dr. Weon-Sik Chae Prof. Jang Hyuk Kwon Dr. Min Ju Cho Prof. Dong Hoon Choi 《Chemistry (Weinheim an der Bergstrasse, Germany)》2020,26(69):16383-16391
In this study, two host materials, pCzBzbCz and pCzPybCz , are synthesized to achieve a high efficiency and long lifetime of blue thermally activated delayed fluorescence organic light-emitting diodes (TADF-OLEDs). The molecular design strategy involves the introduction of a pyridine group into the core structure of pCzPybCz as an electron-withdrawing unit, and an electron-donating phenyl group into the structure of pCzBzbCz . These host materials demonstrate good thermal stability and high triplet energy (T1=3.07 eV for pCzBzbCz and 3.06 eV for pCzPybCz ) for the fabrication of blue TADF-OLEDs. In particular, pCzPybCz -based OLED devices demonstrate an external quantum efficiency (EQE) of 22.7 % and an operational lifetime of 24 h (LT90, time to attain 90 % of initial luminance) at an initial luminance of 1000 cd m−2. This superior lifetime could be explained by the C−N bond dissociation energy (BDE) in the host molecular structure. Furthermore, a mixed-host system using the electron-deficient 2,4-bis(dibenzo[b,d]furan-2-yl)-6-phenyl-1,3,5-triazine (DDBFT) is proposed to inhibit the formation of the anion state of our host materials. In short, the device operational lifetime is further improved by applying DDBFT. The carbazole-based asymmetric host molecule containing a pyridine core realizes a high-efficiency blue TADF-OLED showing a positive effect on the operating lifetime, and can provide useful strategies for designing new host materials. 相似文献
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A series of novel biscyclometallated iridium complexes based on spirobifluorene ligands and acetyl acetonate (acac) ancillary ligands have been synthesized and characterized. Their electrochemical properties were investigated by cyclic voltammetry (CV). HOMO, LUMO, and energy band gaps of all the complexes were calculated by the combination of UV-vis absorption spectra and CV results. TGA and DSC results indicated their excellent thermal stability and amorphous structure. All the iridium complexes were fabricated into organic light-emitting devices with the device configuration of ITO/PEDOT:PSS (50 nm)/PVK (50 wt %):PBD (40 wt %):Ir complex (10 wt %) (45 nm)/TPBI (40 nm)/LiF (0.5 nm)/Ca (20 nm)/Ag (150 nm). Yellow to red light emission has been achieved from the iridium complexes guest materials. Complex C1 (yellow light emission) achieved an efficiency of 36.4 cd/A (10.1%) at 198 cd/m2 and complex C4 (red light emission) reached external quantum efficiency of 4.6%. The slight decrease of external quantum efficiency at high current density revealed that the triplet-triplet (T1-T1) annihilation was effectively suppressed by the new developed complexes. 相似文献
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设计合成了一种新型的有机硅氧烷Cz-Si,并将其用于ITO自组装修饰。制备的Cz-Si具有较好的稳定性,可以在空气中对ITO进行自组装修饰,实验操作简单。为考察ITO自组装修饰对有机电致发光器件性能的影响,分别以修饰后的ITO(ITO/SAM)及不修饰的ITO(unmodified)作阳极,制备了一系列有机电致发光器件ITO/SAM(orunmodified)/NPB(40~50nm)/Alq3(60nm)/LiF(1.0nm)/Al。实验结果表明,ITO自组装修饰后器件性能可以得到显著提升,研究认为这与其调控ITO/有机层界面的电子能级、粗糙度以及界面一致性有关。 相似文献