白光有机电致发光器件进展

白光有机电致发光器件（WOLEDs）在显示和照明领域有着极大的应用前景，受到人们广泛的关注。本文从多个方面综述了WOLEDs近年来的研究进展，探讨了它的应用前景及需要解决的问题。     

蓝色有机电致磷光主体材料

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。     

四苯基卟啉铂电致发光性能的研究

四苯基卟啉铂(PtTPP)可以作为红光掺杂材料制备有机电致发光器件，采用的器件结构为[ITO／CuPc／NPB／BePP2：PtTPP／LiF／Al]，其中BePP2：PtTPP的共沉积膜作为发射层．实验结果表明在发射层中存在着从BePP2到PtTPP的能量传递．通过改变掺杂层中PtTPP的浓度来考察器件的性能，当PtTPP的掺杂浓度在8％(物质的量比)时，器件呈现纯正的红光发射，发射峰位于668nm，器件的效率为0．004lm／W．     

芴取代的有机膦化合物的合成及发光性能

合成了以芴为取代基，P原子为核的一类新型有机膦化合物．此类化合物的HOMO值在-5．35～-5．24eV之间．在二氯甲烷中的最大紫外吸收光谱峰值在313～351nm之间，荧光光谱峰值在334～397nm之间．利用此类小分子与纯聚芴进行掺杂，制作了有机电致发光器件．低HOMO值有机膦化合物的引入有效地降低了聚芴发光器件的开启电压，提高了器件的发光效率．     

苯甲酰水杨酸铽与PVK混合体系的发光特性

合成了一类以苯甲酰水杨酸（benzoyl salicylic acid,BSA)为第一配体，邻菲罗啉（1,10-phenanthroline,Phen)为第二配体的稀土铽配合物，将导电高分子材料PVK引入到配合物中，制成了结构为ITO／PVK：Tb(BSA)3phen/PBD/Alq/LiF/Al电致发光器件，并对该配合物的吸收特性及电致发光和光致发光性能进行了研究，实验数据表明在PVK与Tb(BSA)3phen之间存在着Forster能量传递，该配合物具有很好的光致发光和电致发光性能。本文同时比较了几种不同PVK掺杂浓度对于器件性能的影响。     

快速简便测定有机电致发光材料HOMO能级的电化学方法

采用多层结构有利于提高有机电致发光 (ｏｒ ｇａｎｉｃｅｌｅｃｔｒｏｌｕｍｉｎｅｓｃｅｎｃｅ ,ＯＥＬ)器件的效率和寿命[1 3] 。为了有依据地选择多层有机材料 ,就要准确表征其能带。表征有机材料能带的一些方法有的因为得不到理想结果、有的因为仪器昂贵未被普遍采用[4] 。而用电化学方法 (如循环伏安法 )表征有机材料的能带所用仪器设备简单 ,操作方便 ,被广泛使用。常用ＯＥＬ器件中所选用有机物的氧化、还原电位较大 ,体系中的少量杂质 (如水、氧气等 )的电化学活性就会表现出来。因此 ,须保证体系在测定时水、氧气的含量足够低。…     

稀土有机电致发光研究进展

介绍了近年来有机电致发光研究中稀土有机电致发光研究的动态,对稀土有机配合物的选择、配合物的载流子传输性能、稀土有机电致发光器件、电致发光与光致发光的关系以及如何提高电致发光器件亮度等问题进行了讨论。     

含铕配合物的有机电致发光器件的光伏效应

自从1986年Ｔａｎｇ发表了双层有机电致发光器件有光伏效应[1]以来,人们就一直对有机器件的光伏效应有浓厚的兴趣,特别是近年来有大量的文章报道有机器件的光伏效应。在这些报道中,使用材料中有用聚苯乙炔及其衍生物的[2,3],有用Ｃ60做电子受体的[4],但这些研究都与电致发光无关,仅研究了光电转换特性,我们研究组首次报道了电子给体发光,电子受体稀土配合物不发光的有机光伏器件[5]。本文就是在此基础上进一步研究铕配合物ＯＥＬ器件的光伏效应。铕配合物ＯＥＬ器件不仅仅有利于利用配体三重态能量、提高能量转换效率的潜力,而且中心离…     

稀土铽配合物有机电致发光

利用三价稀土铽配合物作为发射层、二胺衍生物(TPD)以及聚乙烯咔唑(PVK)作为空穴传输层制备了有机电致发光器件. 器件的结构为 玻璃衬底/ITO/PVK 或者TPD/Tb3+ 配合物/Al, 其中空穴传输层TPD 和发光层Tb3+-配合物采用热蒸发办法成膜. 而空穴传输层PVK采用旋甩涂敷的方法成膜. 对于以上的两种器件均获得了来自Tb3+ 的窄峰发射, 在直流电压15.4 V驱动下, 器件发光亮度达210 cd·m-2.     

小分子配合物电致发光材料研究进展

本文简述了有机电致发光及有机发光二极管的基本原理 ;概述了小分子配合物电致发光材料的最新研究进展 ,讨论了它们的光电性质、器件的发光效率和稳定性 ;展望了小分子配合物电致发光材料的前景.     

Novel silicon-based alternating copolymers: synthesis,photophysical properties,and tunable EL colors

We synthesized novel silicon-based alternating copolymers for tunable electroluminescent (EL) colors by Heck synthetic method. Their thermal, photophysical and electroluminescent properties were studied. Most of them exhibited a blue-green EL color at the operating voltage of lower than 12 V. Unusually, we observed the white EL color from a EL device based on SiPhPVK. From photophysical studies and the time-resolved PL spectroscopies, it might be attributed to the formation of stabilized excited state in SiPhPVK. Furthermore, in order to reduce the operating voltage of their LED with increasing the electron affinity of the main chain in silicon-based alternating copolymers, we synthesized the silicon-based copolymers containing electron transporting oxadiazole units in main chain. We also studied their photophysical and electroluminescent properties.     

Improving optoelectronic properties of the 2,7‐polyfluorene derivatives with carbazole and oxadiazole pendants by incorporating the blue‐emitting iridium complex pendants in C‐9 position of fluorine unit

To study the influence of a blue‐emitting iridium complex pendant on the optoelectronic properties of its 2,7‐polyfluorene (PF) derivatives with the carbazole and oxadiazole pendants, a class of 2,7‐PF derivatives containing carbazole, oxadiazole, and/without the cyclometalated iridium complex pendants in the C‐9 positions of fluorene unit were synthesized. Their thermal, photophysical, electrochemical, and electroluminescent (EL) properties were investigated. Among these 2,7‐PF derivatives (P 1 –P 4 ), P 2 and P 3 exhibited higher photoluminescence efficiency in dichloromethane and better EL properties in the single‐emissive‐layer polymer light‐emitting devices. The highest brightness of 3888 cd/m² and the maximum current efficiency of 2.9 cd/A were obtained in the P 2 ‐ and P 3 ‐based devices, respectively. The maximum brightness and efficiency levels were 1.7 and 2.1 times, respectively, higher than the corresponding levels from the parent 2,7‐PF derivative (P 1 )‐based devices. Our work indicated that EL properties of 2,7‐PF derivatives can be improved by introducing the blue‐emitting iridium complex into the alkyl side chain of fluorine unit as pendant. © 2011 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2012     

Synthesis,characterization, and application of light‐emitting copolyfluorenes slightly doped with distyrylbenzene derivatives

Copolyfluorenes PFG1～PFG4 slightly doped with 0.006–0.5 mol % of 2,5‐dihexyloxy‐1,4‐bis(2‐phenyl‐2‐cyanovinyl)benzene (green chromophore) were synthesized by the Suzuki coupling reaction to be evaluated as hosts for white‐light electroluminescent (EL) devices. Their optical, thermal and electrochemical properties were almost identical to those of polyfluorene ( PF ) due to minimal chromophore content. However, the electroluminescent (EL) spectra of the PFGn were very different from photoluminescence spectra in film state. Relative intensity of green emission (ca. 521 nm) in EL spectra are much stronger than those in PL spectra, which can be attributed to charges trapping in the chromophores due to its narrow band gap (E_g ≈ 2.56 eV). The performance of EL devices [ITO/PEDOT:PSS/polymer/Ca (50 nm)/Al (100 nm)] were improved with an increase in chromophore content. The PFG4 device revealed the best performance (6790 cd/m², 1.69 cd/A), and the PFG1 and PFG2 devices exhibited comparable intensity in blue and green emissions. Blend EL devices were fabricated by using the PFGn as the hosts and a red iridium complex [Ir(piq)₂(acac)] as dopant. By controlling the amount of the iridium complex, the white‐light emitting device was achieved with PFG2 , with maximum brightness and CIE coordinate being 4120 cd/m² and (0.31, 0.28), respectively. © 2008 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 47: 149–160, 2009     

Synthesis,characterization, and optoelectronic properties of hyperbranched polyfluorenes containing pendant benzylether dendrons

Linear polyfluorenes with low generation of side benzylether dendrons ( PLG0 , PLG1 ) and hyperbranched polyfluorenes with 1,3,5‐benzene branch unit ( PHG0 and PHG1 ) were prepared by the Suzuki coupling reaction to investigate the structural effect on optoelectronic properties. Their optical properties, both in solution and film state, were investigated using absorption and photoluminescence (PL) spectra. The excimer emission of polyfluorene at about 530 nm, induced by thermal annealing, was completely suppressed by the hyperbranched structure, but the suppression was not obvious by the side benzylether dendrons. The optoelectronic performance of the EL devices (ITO/PEDOT:PSS/polymer/Ca/Al) was strongly dependent upon chemical structures of the emitting polyfluorenes. The hyperbranched PHG0 with zero generation of benzylether side groups revealed the best device performance, with maximal luminance and maximal luminance efficiency of 2350 cd/m² and 0.33 cd/A, respectively. The results suggest that incorporation of branch units with low generation of benzylether dendrons is an effective way to improve annealing stability and EL performance of the polyfluorenes. © 2008 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 46: 5945–5958, 2008     

Synthesis and application of a novel 9,9-diethyl-1,2-diaryl-1,9-dihydrofluoreno[2,3-d]imidazole for blue organic light emitting diode

Two novel 2-(4-(9,9-disubstitued-9 H-fluoren-2-yl)phenyl)-9,9-diethyl-l-phenyl-1,9-dihydrofluoreno-[2,3-d]imidazole derivatives 2 a and 2 b were synthesized and characterized.Their photophysical and electrochemical properties,thermal stability property,and electroluminescence(EL)performance of 2 b were investigated.The fabricated device based on 2 b doping into 4,4’-N,N’-dicarbazole-biphenyl(5%)as an emitter present a maximum brightness of 1272 cd/m^2 at 4 V with the CIE coordinate of(0.1590,0.0465).     

主链含三苯胺单元的聚苯乙炔的合成及其电致发光性能

采用4-甲基三苯胺的二醛基化合物分别与对、间、邻-二甲基苯的膦盐反应,制备了三种含三苯胺单元的聚苯乙炔类共聚物TPA-PPV、TPA-PmPV和TPA-PoPV。结果表明：TPA-PPV和TPA-PmPV具有良好的热稳定性和光电化学性能,该类共聚物不但具有良好的空穴传输性能,而且作为发光材料应用于发光器件时可以调制发光颜色。     

Monochromatic‐red‐light emission of novel copolymers containing carbazole units and europium–acrylate complexes

Nearly monochromatic‐red‐light‐emitting polymers with pendant carbazole and europium (Eu) complex were synthesized and characterized by Fourier transform infrared, elemental analysis (EA), ¹H NMR, ¹³C NMR, UV, and gel permeation chromatography. The photoluminescence and electroluminescence (EL) properties of these polymers were investigated. A single‐layer light‐emitting‐diode device of the structure (indium tin oxide/polymer P4/Al) was fabricated, showing the characteristic bright‐red EL of the Eu³⁺ complex at 614 nm at a turn‐on voltage of about 17 V. The EL spectrum, current–voltage, and emission‐intensity–voltage characteristics of the device were measured. © 2000 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 38: 3405–3411, 2000     

Electroluminescence performances of 1,1-bis(4-(N,N-dimethylamino)phenyl)-2,3,4,5-tetraphenylsilole based polymers in three cathode architectures

A new silole monomer with two 4-(N,N-dimethylamino)phenyl substitutions on silicon atom as designed and synthesized.Three copolymers PF-N-HPS1,PF-N-HPS10 and PF-N-HPS20 were then obtained by copolymerizations of 2,7-fluorene derivatives with the silole monomer at feed ratios of 1%,10%,and 20%.Their UV-vis absorption,electrochemical,photoluminescent,and electroluminescent (EL) properties were investigated.PF-N-HPS possessed HOMO levels of 5.25-5.58 eV,and showed green emissions.Using PF-N-HPS as the emissive layer,three different polymer light-emitting diodes were fabricated as device A with ITO/PEDOT/PF-N-HPS/Al,device B with ITO/PEDOT/PF-N-HPS/Ba/Al,and device C with ITO/PEDOT/PF-N-HPS/TPBI/Ba/Al.For the device A,PF-N-HPS only showed very low EL efficiency of 0.06-0.33 cd/A,indicating that the Al cathode could not inject electron efficiently to the emissive polymers containing the 4-(N,N-dimethylamino)phenyl groups.For the device B,low work function Ba supplied better electron injections,and the EL efficiency could be improved to 0.85-1.44 cd/A.TPBI with a deep HOMO level of 6.2 eV could enhance electron transport and hole blocking.Thus modified recombinations and largely elevated EL efficiency of 4.56-7.96 cd/A were achieved for the device C.The separation of the emissive layer and metal cathode with the TPBI layer may also suppress exciton quenching at the cathode interface.     

SYNTHESIS AND CHARACTERIZATION OF PHENOTHIAZINE-BASED PPV-TYPE COPOLYMERS CONTAINING FLUORENE AND THIOPHENE MOIETIES

Copolymers of fluorene-co-phenothiazine (P1) and thiophene-co-phenothiazine (P2) were prepared respectively by Wittig reaction. The synthesis, photo-physical and electroluminescent properties of the resulting polymers were analyzed by FT-IR, GPC, 1H-NMR, UV-Vis, Photoluminescence (PL), Electroluminescence (EL) and Cyclic Voltammetry (CV). Their single layer devices with configuration of ITO/polymers/Ca/Al were studied. GPC results revealed the weight-average molecular weight (Mw) was 3.0×103 and 5.4×103, respectively. The device with a single layer structure of ITO/P1/Ca/Al emits green light with the maximum peak at 552nm. However,the device with a single layer structure of ITO/P2/Ca/Al emit red light with the maximum peak at 616nm.     

几种芳香胺类有机EL材料性质的量子化学研究

几种芳香胺类化合物E-12、E-13、E-14和E-15均为性能良好的有机电致发光（EL）和光致发光（PL）材料·采用量子化学计算方法,用RHF/AM1方法优化其构型,用RHF/CIS方法计算其电子光谱,计算结果与实验值基本吻合。