高色纯度的红色掺杂型电致发光材料的合成及其性能研究

以吡喃腈作为电子受体、吲哚啉作为电子给体单元, 合成了一种吲哚啉衍生物DADIN作为高色纯度的红色掺杂型电致发光材料, 并对其溶液特性和有机电致发光器件性能进行了研究. 相对于柯达公司经典掺杂型红色发光材料DCJTB, 该发光材料的合成简单、提纯工艺易行、产率高, 并具有更纯正的红色发光. 研究表明, 以DADIN作为掺杂型电致发光材料的有机电致发光器件的电流效率是DCJTB的1.5倍, 实为DCJTB理想的替代品.     

分子型有机空穴传输材料和红色发光材料的设计合成、物化性质及在有机电致发光器件中的应用

有机电致发光器件具有直流电压驱动、主动发光、体积小、无视角限制、响应快,以及色彩全、制作工艺简单等优点,作为新型显示技术而倍受瞩目.在构建有机电致发光器件的三大材料中 (空穴传输材料、电子传输材料和发光材料),空穴传输材料的玻璃化温度(Tg)以及红色发光材料的色纯度和发光效率亟待改进.本论文通过对分子进行合适的裁剪与修饰,设计合成了具有良好应用前景的空穴传输材料和红色发光材料,研究了化合物的物化性质与分子结构的关系以及它们在器件上的应用.     

有机小分子电致发光研究进展

有机电致发光具有发光亮度和发光效率高,材料易加工等传统的无机和液晶显示材料无可比拟的优点,并且可以通过改变分子结构或掺杂调谐发光的颜色.本文评述了近年来有机小分子电致发光材料的研究进展,简要介绍了有机电致发光的原理及其广阔的应用前景.     

铕配合物OEL器件中激基复合物发光机制及消除

有机电致发光无论在科学研究还是在实际应用上都极大地吸引了人们的兴趣[1～3]。在研究的过程中,人们开发了许多的有机电致发光材料,在众多的材料中,稀土配合物有着明显的优势:由于稀土配合物能够利用配体三重态的能量,使得它的内量子效率在理论上能达到100%,而其它材料除了磷光染料[4,5]外内量子效率只能达到25%,同时稀土配合物中心离子的窄带发射有利于全色显示。目前,在有机电致发光领域实现高效纯红的窄带发光是一个很大的挑战,因为在基于颜色叠加原理的全色显示中,获得纯的红色发光是至关重要的。而三价稀土配合物中铕离子的红色发…     

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.     

有机、聚合物薄膜电致发光器件的研究进展

有机、聚合物薄膜电致发光器件是近年来国际上的一个研究热点。与无机材料相比, 有机材料具有更高的发光效率和更宽的发光颜色选择范围, 并且具有容易大面积成膜的优越性。本文介绍了有机、聚合物薄膜电致发光器件的结构和制备、发光机理以及有关材料的选择, 并对该研究领域的最新动态、器件的稳定性问题以及应用前景进行了讨论。     

基于8-羟基喹啉及其衍生物的有机小分子电致发光材料

有机电致发光器件因驱动电压低、亮度和效率高等优点,已经成为最具潜力的平板显示技术。自以8-羟基喹啉铝为发光材料制备双层有机电致发光器件开始,科研人员在发光材料设计合成方面做了大量工作并取得了重大研究进展。在小分子荧光材料中,8-羟基喹啉及其衍生物为配体的有机金属配合物因合成方法简单、发光效率和亮度高、成膜性好等优点而被广泛应用。本文简述了有机电致发光器件的优点、结构及工作原理,重点介绍了基于8-羟基喹啉及其衍生物为配体的有机小分子电致发光材料的研究现状。从分子设计的角度出发,旨在总结8-羟基喹啉及其衍生物为配体的有机小分子电致发光材料对有机电致发光器件性能的影响,包括:以8-羟基喹啉为单一配体的有机金属配合物展示了良好的电子传输能力、亮度高且可作为基质材料等卓越的特性;通过对8-羟基喹啉的苯氧环或吡啶环进行修饰可以调节电致发光颜色;混合配体的使用可以增加玻璃化温度、改善薄膜形貌进而提高器件的效率和稳定性。最后,对该领域存在的问题和有机电致发光材料的应用前景作了评述。     

有机电致发光器件的结构、发光机理及表面工程

简要介绍有机电致发光器件(OLED)的结构、发光机理、表面工程及检测、有机-无机电致发光材料的复合及制备技术。     

树枝状有机电致发光材料*

高度有序、三维结构的树枝状大分子(Dendrimers)作为功能有机材料越来越引起人们的兴趣。与传统的小分子和高分子发光材料相比,树枝状化合物在发光材料方面的应用具有无可比拟的优势。树枝状发光材料的发光特性可以方便地由中心核的调换不同的荧光染料来实现,另外大量的表面功能团和不同的代数可供选择来得到一些有趣的性质,如载流子传输功能、区域隔离效应、溶解性和天线效应等。该类型的发光材料已被认为是第三类电致发光材料。本文简要介绍近期树枝状分子在有机电致发光材料领域中的研究进展,评述树枝状分子在该研究领域所特有的优势,重点介绍了树枝状化合物的设计及其对应的性质,并进一步展望树枝状分子未来在有机电致发光领域的研究前景。     

聚合物电致发光材料及其发光颜色调节的研究进展

聚合物电致发光材料已成为功能材料研究领域的一个热点.与无机材料和有机小分子材料相比,聚合物发光材料具有来源广泛、易加工成型、通过分子结构设计可调节发光颜色等优点,成为制备大面积、低成本、全色柔性显示器件的首选材料.本文介绍了聚合物发光材料的发光机理及调节发光颜色的常用方法,综述了聚对苯乙炔类、聚对苯类、聚芴类等多种共轭聚合物发光材料的合成及发光颜色调节的研究现状,并对聚合物发光材料的发展趋势以及聚合物电致发光器件的制备进行了评述和展望.     

Organic optocouplers

Organic optocoupler(OOC) or organic photocoupler,optical coupler is a novel and one of the most promising organic optoelectronic devices for its well electrical isolation and anti-jamming ability in long-distance and real-time digital communications.The performance parameters of OOC were greatly raised during the past decade,and its development was strongly associated with basic organic devices such as organic light emitting diodes(OLED),organic photodiodes(OPD) and organic phototransistors(OPT) etc.Here we...     

钐试剂在有机合成中的应用

钐试剂在有机合成中的应用是近年来有机合成方法学研究中的热点之一。综述了十余年来本课题组在钐试剂应用于有机合成方面所开展的有关工作：(1)二碘化钐作为偶联剂和还原剂在有机合成中的应用;(2)金属钐直接应用于有机合成;(3)三碘化钐作为路易斯酸应用于有机合成;(4)有机钐试剂在有机合成中的应用。     

有机试液的电感耦合等离子体原子发射光谱分析 Ⅰ.实际应用的若干方面

本文从七个方面介绍了ICP-AES在有机试液直接分析中的应用:(1) 油类样品分析;(2) 酒样直接分析;(3) 溶剂萃取分离富集-ICP光谱分析;(4) 基于生成挥发性金属有机化合物的ICP进样方法;(5) 有机试液分析中的其它进样方法;(6) 有机介质中非金属元素的ICP-AES测定;(7) ICP-AES作为色谱法的检测器。     

一种星型有机低聚物的合成及光电性能

通过多步反应合成了一种新型的具有“双极(bipolar)”性质和发光性能的以N原子为中心的星型有机小分子低聚物——三(4-(5-(4-(5-(4-(二苯胺基)苯基)-1,3,4-噁二唑-2)苯基)-1,3,4-噁二唑-2)苯基)胺. 用¹H NMR, MS和元素分析进行了表征, 研究了化合物的热稳定性和固体粉末的光致发光性质, 并用循环伏安法测定了其电化学性能. 结果表明, 这种合成的同时具备空穴传导和电子输入双重功能基团的星型有机小分子光致发光性能优良(量子效率92%), 热稳定性好, 可以作为制作有机电致发光器件的候选材料.     

Are the asserted advantages of organic solvents in capillary electrophoresis real? A critical discussion

Background electrolytes (BGEs) prepared in pure organic solvents are common alternatives to aqueous BGEs in capillary electrophoresis. Several general advantages of organic solvents over water have been asserted in the literature, namely (i) organic solvents increase the separation selectivity; (ii) organic solvents increase the separation efficiency; (iii) high separation voltages and/or high BGE ionic strengths can be used in organic solvents due to lower electric current compared to water. Related assumptions are that (iv) due to higher field strengths applicable in organic solvents the analysis time is shorter than in aqueous BGEs, and (v) the solubility and/or stability of components (either analytes or BGE chemicals) is higher/better in organic solvents. In the present work, these asserted advantages were critically evaluated based on the physical principles of ion transport and zone dispersion in solution. The result was that many of the above-mentioned general advantages are overestimated or even inexistent; often they have no fundamental basis.     

Nanostructured strategies towards boosting organic lithium-ion batteries

Pursuing material development for next-generation batteries,organic electrode materials have shown great potential for lithium-ion batteries.However,their widespread adopting is plagued by intrinsic problems such as poor electronic conductivity,high dissolution inside electrolytes and unstable chemical peculiarity.Recently,nanostructured-strategies promoted organic electrodes with exotic properties for enhancing electron and ion transport together with the stability during electrochemical process,have received increasing attention and have been extensive applied in boosting the organic lithium-ion based energy storage.In this review,we summarize the applications of nanostructures to improve the performance of both organic anodes and cathodes,including(i)nanoscale design of zero-dimensional organic electrode materials,(ii)strategies of one-dimensional nanostructured organic electrode materials,(iii)construction of two-dimensional nanosized organic composite electrodes,and(iv)three-dimensional exploration of nanosized organic electrodes.We hope to stimulate high-quality applied research on understanding and handling the relationship between the nanostructure and performance of organic lithium-ion batteries that might speed up the commercialization of organic lithium ion batteries.     

Determination of stable carbon isotopes of organic acids and carbonaceous aerosols in the atmosphere

A wet oxidation method for the compound-specific determination of stable carbon isotopes (delta(13)C) of organic acids in the gas and aerosol phase, as well as of water-soluble organic carbon (WSOC), is presented. Sampling of the organic acids was done using a wet effluent diffusion denuder/aerosol collector (WEDD/AC) coupled to an ion chromatography (IC) system. The method allows for compound-specific stable carbon isotope analysis by collecting different fractions of organic acids at the end of the IC system using a fraction collector. delta(13)C analyses of organic acids were conducted by oxidizing the organic acids with sodium persulfate at a temperature of 100 degrees C and determining the delta(13)C value of the resulting carbon dioxide (CO(2)) with an isotope ratio mass spectrometer. In addition, analysis of delta(13)C of the WSOC was performed for particulate carbon collected on aerosol filters. The WSOC was extracted from the filters using ultrapure water (MQ water), and the dissolved organic carbon was oxidized to CO(2) using the oxidation method. The wet oxidation method has an accuracy of 0.5 per thousand with a precision of +/-0.4 per thousand and provides a quantitative result for organic carbon with a detection limit of 150 ng of carbon.     

PPh3衍生准多孔有机笼在Rh/PPh3体系催化氢甲酰化反应中的应用:增强活性和选择性及可回收利用

多孔有机笼(POCs)由英国利物浦大学的Cooper教授在2009年首次合成,这种多孔小分子材料的出现具有两方面重要意义:(1)开拓了多孔材料领域的一个全新分支,改变了人们对多孔材料的传统认知;(2)由于POCs材料由离散的小分子堆积而成,可溶解于一些常用的有机溶剂中,因此其在材料制备方面具有很好的"溶液成型"性能,该优势是三维延伸网状多孔材料所不具备的.POCs本质上是一种"中心带孔"的有机小分子,由刚性有机分子砌块收敛堆叠而成,其特殊结构在气体吸附与分离等方面表现出很好的应用前景.不同于传统空间延伸网状框架材料(如金属-有机框架材料和共价有机框架材料)及多孔有机聚合物(POPs)材料,POCs是一种在大多数有机溶剂中可溶解的小分子材料,因此在均相催化领域也有很好的应用前景.作为最为经典的有机配体,三苯基膦(PPh3)在金属有机化学和均相催化领域应用十分广泛,如目前均相催化工业应用最成功的典范之一氢甲酰化反应,大多数情况下使用的是PPh3与Rh形成的络合物催化剂.本文首先将PPh3进行醛基官能团化,通过醛基和氨基的收敛缩合形成POCs材料,合成了基于PPh3配体的准多孔有机笼(POC-DICP),利用得到的多孔有机笼制备出类Rh/PPh3均相催化体系的Rh/POC-DICP络合催化体系,并将其应用于氢甲酰化反应.相比于经典的Rh/PPh3均相催化体系,该Rh/POC-DICP催化体系在氢甲酰化反应中不仅展示出了更高的活性和目标产物醛的选择性(醛的化学选择性为97％,醛的正异构比为1.89),而且可以很方便地从均相反应体系中沉淀回收(通过调整溶剂体系极性).在氢甲酰化反应中,Rh/POC-DICP体系显示出了良好的底物适用性,在己烯、庚烯、辛烯和苯乙烯的氢甲酰化反应中均表现出良好的催化活性和醛选择性,同时催化剂回收使用4次,未见催化性能明显下降.X射线单晶衍射、同步辐射及DFT计算等结果表明,Rh/POC-DICP催化体系在氢甲酰化反应中具有较高活性和选择性的原因是POC-DICP多孔有机笼分子的有利的空间咬合角(123.88o)和P原子上相对的缺电子效应.本文设计合成的PPh3衍生的多孔有机笼不仅拓宽了多孔有机笼材料在催化领域的应用,而且为新型配体及络合催化剂的设计、合成及修饰提供了新的思路.     

Poly(ionic liquid)s as phase-transporter for graphene oxide liquid crystals from aqueous to non-polar organic phase via noncovalent functionalization

We synthesise a novel poly(ionic liquid) (PIL) and develop a procedure that allows the phase transfer of graphene oxides (GO) from water to organic solvent, retaining graphene oxide liquid crystal (GOLC) phase in various organic solvents, especially non-polar organic solvents. PIL ([PEP-MIM]DBS) is exploited in this procedure as a noncovalent functional material that is capable of transporting GO from aqueous to non-polar organic phase. PILs can decorate GO noncovalently and keep GO nano-sheets exfoliated in solid-state PILs/GO hybrids, which can well redisperse in organic solvents without any agglomeration. This expands the number of known solvents which can support GOLC phase to dimethyl formamide, dimethyl sulfoxide, acetonitrile, tetrahydrofuran, and a number of other non-polar organic solvents, many of which were not known to afford GOLC phase prior to this report, such as dichloromethane, tetrachloromethane, dichloroethane and tetrachloroethane.     

Analysis of Organic Acids Accumulated in Kochia Scoparia Shoots and Roots by Reverse.phase High Performance Liquid Chromatography Under Salt and Alkali Stress

Introduction K.ScopariaisanannualintheChenopodiaceae family.Itsseedscontainabout15%oilandhavebeen usedintraditionalChinesemedicinetotreatdiuresis andskindisease[1].Thecrudeproteincontentof K.Scopariaseedlingsistwiceasmuchasthatin maize.Thisplantisalsorich…