设计合成了新型的含萘并噻二唑(NT)或苯并硒二唑(BS)电子受体单元的D-A型红光掺杂剂,将它们引入到聚芴(PFO)的主链,调节掺杂剂含量,合成了一系列具有“掺杂剂/主体”特性的红光高分子材料含萘并噻二唑衍生物的聚芴(PFR-xNT)和含苯并硒二唑衍生物的取芴(PFR-xBS).这些红光高分子的吸收光谱主要表现为聚芴主体的吸收,荧光光谱既有主体聚芴的蓝光峰,也有掺杂剂的红光峰,并且红光峰的相对强度随着掺杂剂含量的增加而增强.与光致发光光谱不同,这些高分子的电致发光光谱主要表现为掺杂剂的红光发射,并在掺杂的摩尔分数达到1%时实现了主体聚芴向红光掺杂剂的完全能量转移.其中PFR-10NT和PFR-10BS的单层器件(ITO/PEDOT:PSS/Polymer/Ca/A1)(PEDOT:聚3,4-乙烯二氧噻吩;PSS:聚苯乙烯磺酸)分别实现了电流效率1.61 cd/A,最大发射波长632 nm,CIE色坐标(0.63,0.35)以及电流效率1.10 cd/A,最大发射波长620 nm,CIE色坐标(0.63,0.36)的高效红光发射.
参考文献
| [1] | D'Andrade B W,Forrest S R.White Organic Light-Emitting Devices for Solid-State Lighting[J].Adv Mater,2004,16(18):1585-1595. |
| [2] | Raja I U H,Lee J Y,Kim I T,et al.Recent Prngress in the Development of Polymers for White Light-Emitting Polymer Devices[J].Monatsh Chem,2008,139(7):725-737. |
| [3] | Wu H B,Ying L,Yang W,et al.Progress and Perspective of Polymer White Light-Emitting Devices and Materials[J].Chem Soc Rev,2009,38(12):3391-3400. |
| [4] | Kamtekar K T,Monkman A P,Bryce M R.Recent Advances in White Organic Light-Emitting Materials and Devices (WOLEDs)[J].Adv Mater,2010,22(5):572-582. |
| [5] | Huang C W,Peng K Y,Liu C Y,et al.Creating a Molecular-Scale Graded Electronic Profile in a Single Polymer to Facilitate Hole Injection for Efficient Blue Electrolumineseence[J].Adv Mater,2008,20(19):3709-3717. |
| [6] | Xu Q F,Ouyang J Y,Yang Y,et al.Ultrahigh Efficiency Green Polymer Light-emitting Diodes by Nanoscale Interface Modification[J].Appl Phys Lett,2003,83(23):4695-4697. |
| [7] | Chen C T.Evolution of Red Organic Light-Emitting Diodes:Materials and Devices[J].Chem Mater,2004,16(23):4389-4400. |
| [8] | Hou Q,Xu Y S,Yang W,et al.Novel Red-Emitting Fluorene-Based Copolymers[J].J Mater Chem,2002,12(10):2887-2892. |
| [9] | Hou Q,Zhou Q M,Zhang Y,et al.Synthesis and Electroluminescent Properties of High-Efficiency Saturated Red Emitter Based on Copolymers from Fluorene and 4,7-Di (4-hexylthien-2-yl)-2,1,3-benzothiadiazole[J].Macromolecules,2004,37(17):6299-6305. |
| [10] | Yang R Q,Tian R Y,Yan J A,et al.Deep-Red Electroluminescent Polymers:Synthesis and Characterization of New Low-Band-Gap Conjugated Copolymers for Light-Emitting Diodes and Photovoltaic Devices[J].Macromolecules,2005,38 (2):244-253. |
| [11] | Yang R Q,Tian R Y,Hou Q,et al.Synthesis and Optical and Electroluminescent Properties of Novel Conjugated Copelymers Derived from Fluorene and Benzoselenadiazole[J].Macromolecules,2003,36 (20):7453-7460. |
| [12] | Luo J,Hou Q,Chen J W,et al.Luminescence and Photovoltaic Cells of Benzoselenadiazole Containing Polyfluorenes[J].Synth Met,2006,156 (5):470-475. |
| [13] | Yang J,Jiang C Y,Zhang Y,et al.High-Efficiency Saturated Red Emitting Polymers Derived from Fluorene and Naphthoselenadiazole[J].Macromolecules,2004,37(4):1211-1218. |
| [14] | Cho N S,Hwang D H,Jung B J,et al.Synthesis,Characterization,and Electroluminescence of New Conjugated Polyfluorene Derivatives Containing Various Dyes as Comonomers[J].Macromolecules,2004,37(14):5265-5273. |
| [15] | Cho N S,Hwang D H,Lee J I,et al.Synthesis and Color Tuning of New Fluorene-Based Copelymers[J].Macromolecules,2002,35(4):1224-1228. |
| [16] | Chan L H,Lee Y D,Chen C T.Synthesis and Characterization of 3,4-Diphenylmaleimide Copolymers That Exhibit Orange to Red Photoluminescence and Electroluminescence[J].Macromolecules,2006,39(9):3262-3269. |
| [17] | Cho N S,Park J H,Lee S K,et al.Saturated and Efficient Red Light-Emitting Fluorene-Based Alternating Polymers Containing Phenothiazine Derivatives[J].Macromolecules,2006,39 (1):177-183. |
| [18] | Ego C,Marsitzky D,Becker S,et al.Attaching Perylene Dyes to Polyfluorene:Three Simple,Efficient Methods for Facile Color Tuning of Light-Emitting Polymers[J].J Am Chem Soc,2003,125(2):437-443. |
| [19] | Wu W S,Inbasekaran M,Hudack M,et al.Recent Development of Polyfluorene-Based RGB Materials for Llight Emitting Diodes[J].Microelectron J,2004,35 (4):343-348. |
| [20] | F(..o)rster T.10th Spiers Memorial Lecture.Transfer Mechanisms of Electronic Excitation[J].Discuss FaradaySoc,1959,27:7-17. |
| [21] | Shaheen S E,Kippelen B,Peyghambarian N,et al.Energy and Charge Transfer in Organic Light-Emitting Diodes:A Soluble Quinacridone Study[J].J App Phys,1999,85(11):7939-7945. |
| [22] | Utsugi K,Yakano S.Luminescent Propertie of Doped Organic EL Diodes Using Naphtalimide Derivative[J].J Electrochem Soc,1992,139(12):3610-3615. |
| [23] | Uchida M,Adachi C,Koyama T,et al.Charge Carrier Trapping Effect by Luminescent Dopant Molecules in Single-Layer Organic Light Emitting Diodes[J].J App Phys,1999,86(3):1680-1687. |
| [24] | Liu J,Chen L,Shao S Y,et al.Highly Efficient Red Electroluminescent Polymers with Dopant/Host System and Molecular Dispersion Feature:Polyfluorene as the Host and 2,1,3-Benzothiadiasole Derivatives as the Red Dopant[J].J Mater Chern,2008,18(3):319-327. |
| [25] | Liu J,Tu G L,Zhou Q G,et al.Highly Efficient Green Light Emitting Polyfluorene Incorporated with 4-Diphenylamino-1,8-naphthalimide as Green Dopant[J].J Mater Chem,2006,16(15):1431-1438. |
| [26] | Liu J,Min C C,Zhou Q G,et al.Blue Light-Emitting Polymer with Polyfluorene as the Host and Highly Fluorescent 4-Dimethylamino-1,8-naphthalimide as the Dopant in the Side Chain[J].Appl Phys Lett,2006,88(8):0835051-0835053. |
| [27] | Liu J,Cao J X,Shao S Y,et al.Blue Electroluminescent Polymers with Dopant-Host Systems and Molecular Dispersion Features:Polyfluorene as the Deep Blue Host and 1,8-Naphthalimide Derivative Units as the Light Blue Dopants[J].J Mater Chem,2008,18(14):1659-1666. |
| [28] | Liu J,Shao S Y,Chen L,et al.White Electroluminescence from a Single Polymer System:Improved Performance by Means of Enhanced Efficiency and Red-Shifted Luminescence of the Blue-Light-Emitting Species[J].Adv Mater,2007,19(14):1859-1863. |
| [29] | Liu J,Chen L,Shao S Y,et aL Three-ColorWhite Electroluminescence from a Single Polymer System with Blue,Green and Red Dopant Units as Individual Emissive Species and Polyfluorene as Individual Polymer Host[J].Adv Mater,2007,19(23):4224-4228. |
| [30] | Tsai T C,Hung W Y,Chi L C,et al.A New Ambipolar Blue Emitter for NTSC Standard Blue Organic Light-emitting Device[J].Org Electron,2009,10(1):158-162. |
| [31] | Radke K R,Ogawa K,Rasmussen S C.Highly Fluorescent Oligothiophenes Through the Incorporation of Central Dithieno[3,2-b:2′,3′-d]pyrrole Units[J].Org Lett,2005,7(23):5253-5256. |
| [32] | Umezawa K,Nakamura Y,Makino H,et al.Bright,Color-Tunable Fluorescent Dyes in the Visible Near-Infrared Region[J].J Am Chem Soc,2008,130(5):1550-1551. |
| [33] | Yamashita Y,Ono K,Tomura M,et al.Synthesis and Properties of Benzobis (thiadiazole) s with Nonclassical π-Electron Ring Systems[J].Tetrahedron,1997,53(29):10169-10178. |
| [34] | Liu J,Zhou Q G,Cheng Y X,et al.White Electroluminescence from a Single-Polymer System with Simultaneous Two-Color Emission:Polyfluorene as the Blue Host and a 2,1,3-Benzothiadiazole Derivative as the Orange Dopant on the Main Chain[J].Adv Funct Mater,2006,16(7):957-965. |
| [35] | Chen X W,Liao J L,Liang Y M,et al.High-Efficiency Red-Light Emission from Polyfluorenes Grafted with Cyclometalated Iridium Complexes and Charge Transport Moiety[J].J Am Chem Soc,2003,125 (3):636-637. |
| [36] | Liu J,Guo X,Bu L J,et al.White Electroluminescence from a Single-Polymer System with Simultaneous Two-Color Emission:Polyfluorene Blue Host and Side-Chain-Located Orange Dopant[J].Adv Funct Mater,2007,17 (12):1917-1925. |
| [37] | Bear R N.Concentration Quenching of a Red Emitting Electroluminescent Dye Tetraphenylporphyrin:A Time-Resolved Photoluminescenee Study[J].J Mater Sci:Materials Electronics,2005,16(8):549-552. |
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