自主体发光的蓝绿色磷光Ir(Ⅲ)配合物的合成及光电特性

合成了一类自主体蓝绿色磷光铱(Ⅲ)配合物(Cz Ph BI)2Ir(tfmptz),(Cz Ph BI)2Ir(tfmpptz)和(Cz Ph BI)2Ir(fpptz)[其中Cz Ph BI,tfmptz,tfmpptz和fpptz分别为9-[6-(2-苯基-1-苯并咪唑基)己基]-9-咔唑、2-(5-三氟甲基-1,2,4-三唑基)吡啶、2-(5-[4-(三氟甲基)苯基]-1,2,3-三唑)吡啶和2-[5-(4-氟苯基)-1,2,3-三唑]吡啶].通过核磁共振氢谱和氟谱及元素分析确定其分子结构,并对其光物理性能进行了研究.利用该类配合物作为单发光层制备了器件结构为氧化铟锡(ITO)│N,N'-二苯基-N,N'-二(1-萘基)-1,1'-联苯-4,4'-二胺(NPB)(30 nm)│4,4'-N,N'-二咔唑基联苯(CBP)(15 nm)│Ir配合物(30 nm)│1,3,5-三(1-苯基-1H-苯并咪唑-2-基)苯(TBPI)(30 nm)│Li F(1 nm)│Al(100 nm)的电致发光器件,其最大亮度为6913 cd/m2,最大发光效率达13.9 cd/A.     

N-(2, 5-二甲氧基苯基)N-对甲苯磺酰基-β-氨酸甲酯在多聚磷酸中反应产物的结构测定

发现N-(2,5二甲氧基苯基)N-对甲苯磺酰基-β-丙氨酸甲酯(1)在多聚磷酸作用下,产生了两个新化合物。经过核磁共振、质谱、红外光谱、紫外光谱和化学性质的研究,证实了两个化合物的结构分别为N-(2,5二甲氧基-4-对甲苯基砜基苯基)β-丙氨酸甲酯(2)和N,N'-[4,4'-(2,2',5,5'-四甲氧基)-联苯亚基]双丙氨酸甲酯(4)。在多聚磷酸作用下,发生这样的反应是很少见的。     

含有三苯胺-三唑双极性单元的橙红光阳离子型铱(Ⅲ)配合物的合成及在LEDs中的应用

以2-萘基吡啶(npy)为主配体, N,N-二苯基-4-[4-苯基-5-(吡啶-2-基)-4H-1,2,4-三唑-3-基]苯胺(DPPTA)为辅助配体, 合成了含有三苯胺-三唑双极性结构单元的橙红光阳离子型有机铱(Ⅲ)配合物[(npy)₂Ir(DPPTA)]PF₆. 该配合物的热分解温度高达345 ℃, 从20 ℃升温到100 ℃时, 相对发光强度衰减28.0%, 发光颜色稳定. 其所含的双极性结构单元使其能有效地吸收GaN芯片的蓝光(λ_em,max=455 nm), 进而可被蓝光高效激发. 以GaN蓝光芯片作为激发光源, [(npy)₂Ir(DPPTA)]PF₆为下转换发光材料, 可以制得橙红光LEDs; 进一步与黄光材料Y₃Al₅O₁₂∶Ce³⁺(YAG:Ce³⁺)联用, 可以制得高效的中性白光和暖白光LEDs.     

以3-乙酰基樟脑作为辅助配体的环金属铱配合物的合成及光电性能研究

以立体位阻3-乙酰基樟脑为辅助配体合成了系列新型的环金属铱配合物3-乙酰基樟脑-2-(2,4-二氟)苯基吡啶环金属铱配合物[(46dfppy)₂Ir(acam)], 3-乙酰基樟脑-2-苯基吡啶环金属铱配合物[(ppy)₂Ir(acam)], 3-乙酰基樟脑-2-苯并噻吩吡啶环金属铱配合物[(btp)₂Ir(acam)]. 将配合物的吸收光谱、光致发光光谱以及光致发光效率与辅助配体为乙酰丙酮(acac)的对应配合物进行了比较, 发现在配合物中引入具有大空间位阻的3-乙酰基樟脑使配合物的光致发光效率均有所提高. 并将(ppy)₂Ir(acam)用于有机电致发光器件, 电致发光光谱在516 nm 处有一最大强度峰, 驱动电压为12 V 时最大亮度为10930 cd/m², 最大亮度效率达到14.6 cd/A, 电压为10.7 V 时最大功率为4.23 lm/W, 亮度为698 cd/m².     

一种含载流子传输基的铱配合物:合成及深黄色电致磷光器件

合成了一种含有载流子传输基新的铱配合物(BPPBI)2Ir(ECTFBD)[HBPPBI:1-苯基-2-(4-联苯基)苯并咪唑,HECTFBD:1-(9-乙基-3-咔唑基)-4,4,4-三氟-1,3-丁二酮],其结构和组成经核磁共振氢谱和元素分析所证实。研究了这种铱配合物二氯甲烷溶液的光物理和电化学性质。制作了基于这种铱配合物的电致磷光器件。器件结构是ITO/MoO3(10 nm)/NPB(80 nm)/CBP:x%(BPPBI)2Ir(ECTFBD)(20 nm)/TPBi(45 nm)/LiF/Al[x%:质量百分比为4%和7%的掺杂浓度;NPB:N4,N4′-二(1-萘基)-N4,N4′-二苯基-4,4′-联苯二胺,CBP:4,4′-二(9-咔唑基)联苯,TPBi:1,3,5-三(2-(1-苯基)苯并咪唑基)苯]。这些器件显示出深黄色的发射。对于7%掺杂浓度器件,最大的电流效率和最大发光亮度分别是5.2 cd.A-1和8 690 cd.m-2。     

一种吡嗪铱(Ⅲ)配合物的晶体结构及光物理性质

合成了一种铱配合物二(4,4'-二氟-5-甲基-2,3-二苯基吡嗪) (乙酰丙酮)合铱[(MDPPF)₂Ir(acac)]的有机电致发光器件(OLED),利用X射线单晶衍射仪测定了该化合物的晶体结构. 利用紫外-可见吸收光谱、发射光谱对其光物理性质进行研究. 结果表明: (MDPPF)₂Ir(acac)的单晶结构属于三斜晶系, P1空间群,晶胞参数a=1.13984(3) nm, b=1.26718(3) nm, c=1.29541(3) nm, α=93.7181(19)°, β=101.638(2)°, γ=110.853(3)°, V=1.69336(7) nm³; (MDPPF)₂Ir(acac)在二氯甲烷溶液中的发射峰为555 nm. 以(MDPPF)₂Ir(acac)为客体材料,制备了结构为ITO/NPB(40 nm)/CBP: (MDPPF)₂Ir(acac)(20 nm)/TPBi(10 nm)/Alq₃ (30 nm)/LiF(1 nm)/Al(100 nm)的一系列不同掺杂浓度器件, 器件的发射峰位于558 nm, 最大亮度达到32700 cd·m^-2,最大电流效率44.3 cd·A^-1, 最大功率效率20.7 lm·W^-1.     

2-苯基吡啶铱(Ⅲ)配合物及其衍生物光谱性质的理论研究

采用密度泛函理论B3PW91和UB3PW91方法, 分别对4种Ir(Ⅲ)配合物(ppy)₂Ir(acac)(1, ppy=2-苯基吡啶, acac=乙酰丙酮)、(npy)₂Ir(acac)(2, npy=2-萘-1-基吡啶)、(pq)₂Ir(acac)(3, pq=2-苯基喹啉)和(bzq)₂Ir(acac)(4, bzq=苯并喹啉)进行了基态和激发态的几何优化, 在此基础上用TD-DFT方法计算了吸收和发射光谱. 结果表明, 随着ppy配体上并苯环位置的变化, 参与最大吸收和发射的分子轨道能隙降低程度不同, 从而使配合物2, 3, 4的最大吸收和发射光谱都比配合物1发生红移, 其中在吡啶环上增加苯环对吸收光谱的影响最大. 这4个分子最大吸收波长的顺序为1<2<4<3, 而最大发射波长顺序则是1<4<3<2. 由于配合物2的两个苯环上H的强排斥作用降低了其共轭程度, 使分子发生很大程度的扭曲, 导致其斯托克位移最大.     

一种可旋涂的磷光铱(Ⅲ)配合物的合成及其在OLED器件中的性能

以1-(6-(9-咔唑基)己基)-2-苯基咪唑(Czhpi)为主配体,2-(5-(4-氟苯基)-1,3,4-三唑)吡啶(fpptz)为辅助配体,合成了一种溶解性好的可用于湿法旋涂制备有机电致发光器件的磷光铱(Ⅲ)配合物(Czhpi)2Ir(fpptz)。通过紫外-可见吸收光谱、发射光谱、低温磷光光谱及热重分析对其光物理性质和热稳定性进行了研究。将配合物(Czhpi)2Ir(fpptz)掺杂在1,3-二唑-9-基苯(mCP)中,作为发光层,经湿法旋涂制备了有机发光二极管器件。结果显示,该器件的最大电致发光谱峰位于523nm,最大电流效率约5.74cd·A-1,最大功率效率为2.88lm·W-1,色坐标显示在(0.31,0.41)附近。     

酚基嘧啶铍(Ⅱ)配合物的合成及光电性质

采用Suzuki偶联方法合成了新型有机螯合配体酚基嘧啶(HPP), 利用HPP进一步合成了酚基嘧啶铍配合物Be(PP)₂. 采用核磁共振(¹H NMR)和红外(IR)光谱等方法对其结构进行了表征, 并通过测定紫外-可见(UV-Vis)和光致发光(PL)光谱对Be(PP)₂的光学性质进行了研究. 结果表明, 配合物在460 nm处有最大发射. 以Be(PP)₂为电子传输层和发光层制备了结构为氧化铟锡(ITO)/N,N'-二(萘-2-基)-N,N'-二(苯基)联苯-4,4'-二胺(NPB)(45 nm)/Be(PP)₂(60 nm)/Al(300 nm)的双层模型器件, 获得了最大亮度为103 cd/m²的近白光发射, 色坐标为(0.37, 0.39), 光功率效率为0.13 lm/W.     

Co(Ⅱ)-Zn(Ⅱ)掺杂配位聚合物的 合成及物理性能

采用均苯三甲酸配体、 硝酸锌与硝酸钴反应, 一步合成了钴掺杂的锌配位聚合物Zn_1-xCo_x(BTC)·(OH)(H₂O)₃(NMP)(DMF)(H₂O)_1.5(H₃BTC为1,3,5-均苯三酸, NMP为1-甲基-2-吡咯烷酮, DMF为N,N'-二甲基甲酰胺, x=0~0.8). 该化合物结构经X射线单晶衍射确定, 属于立方晶系, 空间群P2₁3, 晶胞参数a=1.43863(20) nm. 利用元素分析、 能量散色光谱(EDS)、 UV-Vis光谱、 X射线粉末衍射(XRD)、 热重分析(TGA)、 氮气吸附和磁性分析等表征手段对样品的物理性质进行了表征. 氮气吸附实验结果表明, 该配位聚合物具有良好的微孔吸附特性, Langmiur比面积为832 m ²/g, 孔径为0.84 nm; 元素分析结果表明, 钴/锌摩尔比为1∶1时, 在37~300 K温度范围内其磁性表现为反铁磁性, 并满足Curie-Weiss定律.     

Novel Iridium Complex with Carbazol-2-yl-β-diketone Derivative: Low-energy Excitation and Red Electrophosphorescent Devices

A novel iridium-complex, (BPPBI)₂Ir(2-TFDBC)[BPPBI=2-(biphenyl-4-yl)-1-phenyl-1H-benzo[d]imi- dazole, 2-TFDBC=1-(9-ethyl-9H-carbazol-2-yl)-4,4,4-trifluorobutane-1,3-dione], was synthesized, and its structure and component were confirmed by ¹H NMR and element analysis, respectively. UV-Vis absorption and photoluminescent(PL) spectra of (BPPBI)₂Ir(2-TFDBC) in dichloromethane were investigated. The Ir-complex exhibited a long wavelength excitation of 470 nm, i.e., low-energy excitation. So, it is a promising candidate for phosphorescent probe and PL material. (BPPBI)₂Ir(2-TFDBC)-based electroluminescent devices, ITO/MoO₃(10 nm)/NPB(80 nm)/ CBP:x(BPPBI)₂Ir(2-TFDBC)(20 nm)/TPBi(45 nm)/LiF/Al, were fabricated, where x(%) was of 4% or 8% doping concentration(mass fraction); ITO=indium tin oxides; NBP=N,N'-bis-(1-naphthalenyl)-N,N'-bis-phenyl-(1,1'-biphenyl)- 4,4'-diamine, CBP=4,4'-bis(N-carbazolyl)-1,1'-biphenyl, TPBi=1,3,5-tris(1-phenyl-1H-benzimidazol-2-yl)benzene. The devices showed a red emission of 620 nm. The maximum current efficiency and brightness were 1.7 cd/A and 4063 cd/m² for a device of 8%(mass fraction) doping level, respectively. The moderate luminous efficiency was due to the inadequate energy transfer from the host material to the guest material.     

A Series of Pure Orange-yellow Iridium Complexes with Low Efficiency Roll-off: a Computational Study

The electronic structures and spectroscopic properties of heteroleptic cyclometalated iridium(III) complexes were investigated. The geometries, electronic structures, and the lowest-lying excited states of (DBQ)₂Ir(acac) and (MDQ)₂Ir(acac) were investigated via density functional theory-based approaches. A series of designed models of (DBQ)₂Ir(dpis), (DBQ)₂Ir(tpip), (MDQ)₂Ir(dpis) and (MDQ)₂Ir(tpip) was also calculated for comparison. The structures in the ground and excited states were optimized via B3LYP method. The lowest absorptions and emissions spectra were evaluated via TD-B3LYP and TD-PBE1PBE methods. The computational results reveal that the emission peaks of the designed complexes are at around 585-640 nm, which belong to the orange-yellow wavelength. The frontier molecular orbital properties indicate that the Ir(III) complexes have low efficiency roll-off.     

Synthesis and Luminescent Properties of Iridium Complexes with Reduced Concentration Quenching Effect

Three novel cyclometalated ligands 1-benzyl-2-phenyl-1H-benzoimidazole(BPBM), 1-(4-methoxy-benzyl)-2-(4-methoxy-phenyl)-1H-benzoimidazole(MBMPB) and 4-[2-(4-dimethylamino-phenyl)-benzoinidazol-1-ylmethyl]-phenyl-dimethyl-amine(DBPA) were designed and synthesized, and the corresponding highly efficiency green-emitting phosphorescent iridium complexes Ir(BPBM)₂(acac)(1), Ir(MBMPB)₂(acac)(2) and Ir(DPBA)₂(acac) (3) with acetylacetone(acac) as auxiliary ligand were also synthesized. The ligands are functionalized by bulky non-planarity substituents, thus the phosphorescent concentration quenching is substantially suppressed, and all the complexes exhibit bright photoluminescence(PL) in solid state. The photo-physical properties of the three iridium complexes were researched in detail. The results indicate that they have potential application in fabricating non-doped electrophosphorescence device.     

新型酰胺功能化铱[III]配合物的光电性能

设计并制备三种具不同官能团的铱[III]邻菲啰啉配合物: [Ir(ppy)₂phen-Br]Cl, [Ir(ppy)₂phen-COOH]Cl, [Ir(ppy)₂phen-Si]Cl,以及对比参照物[Ir(ppy)₂phen-NH₂]Cl.其中, ppy为2-苯基吡啶, phen-Br为2-溴-2甲基-N-(1, 10-菲啰啉-5-基)丙酰胺, phen-COOH为4-[(1, 10-菲啰啉-5-基)氨基]-4-酰基丁烯酸, phen-Si为5-[N, N-二-3-(三乙氧硅)基]酰亚胺-1, 10-菲啰啉, phen-NH₂为5-氨基-邻菲啰啉,并采用核磁共振(NMR)、质谱(MS)、紫外-可见(UV-Vis)吸收光谱、荧光(PL)光谱法和循环伏安法(CV)等对上述配合物进行了分析和表征.光物理性能研究结果表明:这些配合物在蓝-紫色可见光区域有较强吸收,可发射出明亮的黄色到橙红色荧光,量子效率达到12%以上.相比较于参照物[Ir(ppy)₂phen-NH₂]Cl (5.78 μs),三种新型配合物在量子效率未明显降低甚至提高的前提下,荧光寿命有了显著的提高(9.18-12.00 μs).其中, [Ir(ppy)₂phen-Br]Cl (1)不但有最高的荧光量子产率(32%)和最长的荧光寿命(12.00 μs),而且也具有最好的氧传感性能, I₀/I (无氧与纯氧条件下的荧光强度比值)可达到10.91.这使得[Ir(ppy)₂phen-Br]Cl有望成为接枝型,较高性能的光学氧传感器的候选氧敏指示剂.除此之外,还通过含时密度泛函理论(TD-DFT)计算对配合物光电性能进行补充说明,理论计算表明:这些配合物是以铱为中心的近似八面体结构,理论计算结果与实际实验数据相一致.     

Cyclometallated iridium phosphors with amino acid ancillary ligand for intracellular imaging

Two new iridium complexes, (dfppy)₂Ir(L-alanine) (dfppy=2-(2,4-difluorophenyl)pyridine) and (piq)₂Ir(L-alanine) (piq=L-phenylisoquinoline) were prepared with L-alanine as ancillary ligand. The two complexes show bright greenish-blue and red emission respectively. Theoretic study demonstrated that the emission nature of these complexes is mainly determined by the main ligand. And their improved aqueous solubility and the retained quantum yield favor their application in cell imaging. Intracellular imaging suggested that these two complexes have fine cell membrane permeability and is mainly distributed in cytoplasm. This study displayed a new strategy to design aqueous soluble phosphorescent cyclometallated Ir(Ⅲ) complex via introducing amino acid as ancillary ligand.     

Coordination geometry of tetradentate Schiff’s base nickel complexes: the effects of donors, backbone length and hydrogenation

The X-ray crystal structures of (N,N′-bis-(o-amidobenzilidene)-1,3-diaminopropane)nickel (Niambpr), (N,N′-bis-(o-amidobenzilidene)-1,4-diaminobutane)nickel (Niambut), (N,N′-bis-(o-thiobenzilidene)-1,4-diaminobutane)nickel(II) (Nitsalbut), bis-acetonitrile-(N,N′-bis-(o-aminobenzyl)-1,2-diaminoethane) nickel(II) tetrafluoroborate [Ni(H₄amben)(MeCN)₂] [BF₄]₂, bis-O-acetato-(N,N′-bis-(o-aminobenzyl)-1,2-diaminoethane) nickel(II) [Ni(H₄amben)(OAc)₂ · H₂O] and bis-O-acetato-(N,N′-bis-(o-aminobenzyl)-1,3-diaminopropane) nickel(II) [Ni(H₄ambpr)(OAc)₂] are presented. These structures complete the structural characterisation of the simple unsubstituted Schiff’s base complexes with N₄ and N₂S₂ donor sets and allow us to assess the effects of donor groups and polymethylene chain length on the coordination geometries of nickel(II). The hydrogenated N₄ complexes offer an insight into the effects of increased flexibility and character of the internal nitrogen donors. Unlike the parent N₄ imine species the hydrogenated amine species do not deprotonate at the peripheral nitrogen donors and do not seem to be restricted to the meridial plane of the nickel.     

两种基于氮杂环结构铱(Ⅲ)配合物的合成及有机电致发光性能

以苯基嘧啶/吡啶基嘧啶为母核, 同时引入2个三氟甲基(CF₃)合成了2-[3,5-二（三氟甲基）苯基]-5-氟基嘧啶(tfmphfppm)和2-[2,6-二（三氟甲基）-4-吡啶基]-5-氟基嘧啶(tfmpyfppm)主配体, 并以2-(5-苯基-1,3,4-噁二唑-2-)苯酚(pop)为辅助配体合成了2种铱(III)配合物Ir(tfmphfppm)₂(pop)和Ir(tfmpyfppm)₂(pop), 其发射光谱峰分别位于484和504 nm, 分别属于蓝绿光和绿光发射, 发光量子效率分别达到76%和89%. 由于氮杂环和2,5-二苯基-1,3,4-噁二唑基团的存在, 配合物具有较低的最低未占据分子轨道(LUMO)能级和较高的电子迁移率. 以2种 铱(III)配合物为发光中心制备的有机电致发光器件(OLED)显示了较好的器件性能, 其最大亮度(L_max)、 最大电流效率(η_{c, max})、 最大功率效率(η_{p, max})和最大外量子效率(EQE_max)分别为33379 cd/m², 76.55 cd/A, 31.59 lm/W和26.7%; 并且该器件显示了比较小的效率滚降, 在亮度为1000 cd/m²时, 器件的η_c仍然可以达到72.71 cd/A. 本文结果表明, 氮杂环、 2,5-二苯基-1,3,4-噁二唑和三氟甲基基团可以有效提高铱(Ⅲ)配合物的发光性能和电子迁移率, 从而提高器件的性能.     

Neutral pyridylmethylamide ligands and their mononuclear copper(II) complexes

Mononuclear copper(II) complexes of a family of pyridylmethylamide ligands HL, HL^Me, HL^Ph, HL^Me3 and HL^Ph3, [HL = N-(2-pyridylmethyl)acetamide; HL^Me = N-(2-pyridylmethyl)propionamide; HL^Ph = 2-phenyl-N-(2-pyridylmethyl)acetamide; HL^Me3 = 2,2-dimethyl-N-(2-pyridylmethyl)propionamide; HL^Ph3 = 2,2,2-triphenyl-N-(2-pyridylmethyl)acetamide], were synthesized and characterized. The reaction of copper(II) salts with the pyridylmethylamide ligands yields complexes [Cu(HL)₂(OTf)₂] (1), [Cu(HL^Me)₂](ClO₄)₂ (2), [Cu(HL)₂Cl]₂[CuCl₄] (3), [Cu(HL^Me3)₂(THF)](OTf)₂ (4), [Cu(HL^Me3)₂(H₂O)](ClO₄)₂ (5a and 5b), [Cu(HL^Ph3)₂(H₂O)](ClO₄)₂ (6), [Cu(HL)(2,2′-bipy)(H₂O)](ClO₄)₂ (7), and [Cu(HL^Ph)(2,2′-bipy)(H₂O)](ClO₄)₂ (8). All complexes were fully characterized, and the X-ray structures vary from four-coordinate square-planar, to five-coordinate square-pyramidal or trigonal-bipyramidal. The neutral ligands coordinate via the pyridyl N atom and carbonyl O atom in a bidentate fashion. The spectroscopic properties are typical of mononuclear copper(II) species with similar ligand sets, and are consistent their X-ray structures.