Synthesis and Structure of PEDOT Prepared through a Modified LB Film Method

Adopting LB film method, an arachidic acid （AA）/PEDOT multilayer LB film and polymerized EDOT monomers in hydrophilic group of LB were chosen to prepare the arachidic acid （AA）/PEDOT multilayer LB film. UV-Vis, FT-IR and XPS analyses implied that EDOT was effectively polymerized in film, and thus PEDOT conducting polymer was produced. Analyses of XRR and SIMS indicated that the film had a well-arranged lamella structure, and further research showed that polymerization of EDOT in AA film destroyed the orderliness of the original LB film. This phenomenon could be related to the destructive effect of polymerization on the layered structure. We used four-point probe and semiconductor instrument to study the conductivity property of the film, and observed that the conductivity of AA/PEDOT film had sudden changes with the changes of processing time in an effective conduction network, which was caused by ＂permeability＂ in conducting channel of multilayer film. The test results also indicated that the conductivity of AA/PEDOT film was obviously better than that of spin-coating PEDOT/PSS or ODA-SA/PEDOT-PSS film due to the higher π structure of PEDOT structure and ordered film structure.

Gas Sensitivity of Poly (3, 4-ethylene dioxythiophene) Prepared by a Modified LB Film Method

An arachidic acid/poly （3, 4-ethylene dioxythiophene） （AA/PEDOT） multilayer Langmuir-Blodgett （LB） film was prepared by a modified LB film method. The theories were utilized to explain the effects between HCl molecule and LB film. The gas sensitivity mechanism of poly （3, 4-ethylene dioxythiophene） （PEDOT） multilayer film can be explained by the charge transfer between p system of PEDOT and oxidization HCl system. The gas sensitivity of PEDOT LB film deposited interdigital electrode to HCl was tested. The results showed that film thickness, treating temperature, deposition speed had different influence on film gas sensitivity. The AA/PEDOT film deposited device exhibited nonlinear behavior to HCl gas at lower concentration （20-60 ppm） and linear response behavior at higher gas concentration was observed. The time of the compound LB film of the AA/PEDOT responding to the 30 ppm HCl gas is about 20 seconds, which is far quicker than the time of the film to the PEDOTPRESS film（about 80 seconds）. It is not higher film press to better film. When the film press attains 45 mNs/m, the sensitivity of the AA/PEDOT film on the contrary descends.

修饰LB膜法制备的PEDOT薄膜对HCl气体气敏性的影响

以二十烷酸（AA）LB膜为模板,通过3,4-乙烯二氧噻吩（EDOT）单体在LB膜亲水基团间聚合,采用垂直拉膜方式在叉指电极上制备了不同层数的AA/PEDOT膜,并对HCl气体在AA/PEDOT复合LB膜中的作用进行研究,结果表明,膜厚、处理温度、拉膜膜压对AA/PEDOT复合LB膜的HCl气体敏感性能有不同程度的影响.在较小气体体积分数范围（20～60μL/L）内,AA/PEDOT多层有序膜对气体表现出非线性响应特性,而在较高浓度范围内则表现出线性响应特性.AA/PEDOT复合LB膜对30μL/L HCl气体的响应时间约为20 s,远快于普通PEDOT旋涂膜（约为80 s）,同时在膜压达到45 mN/m时,AA/PEDOT膜的敏感性能反而下降.敏感机理解释为电子在PEDOT共轭系统和氧化性气体间的转移.

聚3,4-乙烯二氧噻吩/聚苯乙烯磺酸复合LB膜在OLED器件上的应用

采用Langmuir-Blodgett(LB)膜静电诱导沉积法制备聚3,4-乙烯二氧噻吩(PEDOT)高度有序导电聚合物复合薄膜,研究了薄膜的导电性能并进一步研究薄膜在改善器件性能方面的作用。并将其应用于有机电致发光二极管(OLED)器件的空穴缓冲层,将聚3,4-乙烯二氧噻吩/聚苯乙烯磺酸(PEDOT/PSS)复合LB沉积于纳米铟锡金属氧化物(ITO)电极上,制备了以复合LB膜为空穴缓冲层的OLED器件。发现复合LB膜改善了器件性能(启动电压降低、最大亮度增加),但进一步的研究表明LB膜器件在一定时间后出现性能劣化。I-V特性和X射线反射率(XRR)分析表明,薄膜的结构发生一定程度的改变是导致器件性能变差的可能原因。

修饰LB膜法制备聚3,4-乙烯二氧噻吩薄膜的光电性能

采用修饰LB膜法以二十烷酸(AA)LB膜为模板,通过3,4-乙烯二氧噻吩(EDOT)单体在LB膜亲水基团间聚合,制备了AA/PEDOT复合LB膜。UV-Vis、FT-IR和XPS分析表明EDOT在多层膜中有效聚合,生成了PEDOT导电聚合物;XRR和SIMS分析表明薄膜具有较好的层状有序结构,进一步研究发现EDOT在AA多层膜中的聚合破坏了原有LB膜的有序性,这可能与聚合过程对层状结构产生的破坏作用有关;采用四探针仪及半导体测试仪研究了薄膜导电性能,发现AA/PEDOT多层膜的电导率随处理时间的变化产生突变,这与多层膜中导电通道的"渝渗"有关,在有效导电网络连通后电导率发生了突变。测试结果还表明AA/PEDOT膜导电性明显优于PEDOT旋涂膜和ODA-SA/PEDOT-PSS复合膜,这是由于原位制备的PEDOT共轭度较高,且薄膜具有很好的层状有序结构。

LBS中存在的问题及对策

随着计算机技术、无线定位技术、GIS技术、无线通讯技术及移动互联技术的飞速发展,基于位置的服务(LBS)技术成为现实并在实际中得到应用,该技术能够随时随地满足用户的位置信息服务请求。对LBS进行了简要介绍,在此基础上分析了其目前仍然存在的问题,如产业链不成熟、定位精度不高、用户需求不足等。最后给出了解决问题的对策,如建立LBS产业联盟、与连续运行参考站(CORS)结合来提高定位精度、建立双向互动信息采集系统等,以期为该行业的发展提供一定的参考。

两亲性高聚物形成LB膜条件的研究

两亲性高聚物形成ＬＢ膜条件的研究边凤兰，杨毅，黄金满，高倩，高明远，沈家骢（吉林大学化学系，长春，１３００２３）关键词两性高聚物，接枝度，ＬＢ膜，循环伏安法应用ＬＢ膜技术，制备高质量的有机超薄膜ｌ‘，习日益引起人们极大的兴趣，如果这种薄膜没有针孔等结...

聚3,4-乙烯二氧噻吩聚苯乙烯磺酸复合LB膜对有机电致发光器件性能的优化

采用Langmuir-Blodgett(LB)膜诱导沉积法制备聚3,4-乙烯二氧噻吩高度有序导电聚合物复合薄膜,研究了薄膜的导电性能并进一步研究薄膜在改善器件性能方面的作用。将其应用于有机电致发光二极的空穴缓冲层,将聚3,4-乙烯二氧噻吩聚苯乙烯磺酸复合LB膜沉积于铟锡氧化物(ITO)电极上,制备了以复合LB膜为空穴缓冲层的有机电致发光二极。发现复合LB膜改善了器件性能(启动电压降低、最大亮度增加),但进一步的研究表明,LB膜器件在一定时间后出现性能劣化,X射线反射率(XRR)分析表明薄膜的结构发生一定程度的改变,是导致器件性能变差的可能原因。

LB单分子膜中电荷密度的确定

本文介绍了一种新的测定单层LB膜中电荷密度的C-V方法,解决了常规C-V方法的不精确问题。通过对硬脂酸C_(20)H_(40)O_2膜中电荷密度的测定,表明此方法实用可行。

测算稠油经济采收率的LB经验法

在分析影响油田经济采收率的流动系数、储量丰度、操作成本、单井投资、原油价格5大因素基础上,从技术角度和经济角度综合剖析,应用功能重要度评价法,以"参数易于采集、影响程度大、相关性高"为原则,研究提出一种测算稠油经济采收率的LB经验法。通过辽河油田16个稠油油藏的实例分析,平均相对误差为0.35%,证实该方法的实用性。

2-十八烷基-7,7,8,8-四氰基对醌二甲烷和3,3′,5,5′-四甲基联苯胺电荷转移配合物LB膜的制备和表征

利用LB技术制备了2-十八烷基-7,7,8,8-四氰基对醌二甲烷(C18TCNQ)和3,3,′5,5′-四甲基联苯胺(TMB)的电荷转移配合物(CT comp lex)薄膜,即TMB.C18TCNQ LB膜.利用红外(IR)光谱、紫外-可见-近红外(UV-V is-NIR)光谱以及原子力显微镜(AFM)研究了TMB.C18TCNQ在LB膜中的分子取向、结构及表面形貌.结果表明,配合物为混合堆积类型,LB膜中电子给体TMB和电子受体C18TCNQ的环面分别垂直于固体基板表面,而且给体和受体以面对面的方式堆积.5层TMB.C18TCNQ LB膜的AFM照片显示,其表面形貌是由许多堆积在一起的六边形片状微晶组成的,微晶的宽度约为180 nm.与通过LB技术和掺杂技术制备的TMB.C18TCNQ掺杂膜比较,TMB.C18TCNQ LB膜具有明显不同的结构,其长的脂肪烃链有向垂直于基板表面方向变化的趋势,LB膜与掺杂膜的表面形貌也有明显不同.这表明不同的制备方法可以影响薄膜的结构和形貌.

基于LBM的波浪作用下动量射流数值模拟

为了进一步研究射流在有限水深波浪环境下的流动规律,拓宽LBM在水利工程学科中的应用范围,将LB方法的原理应用于自由表面处理、边界条件设定、紊流模型的耦合求解、造波及消波等关键问题上,建立了二维多松弛LB数值波浪水槽模型。运用该模型模拟不同波浪环境下动量射流的紊动特征及变化规律,得到射流在不同工况下的轴线速度衰减、扩展半宽变化和横断面速度分布等规律。研究表明,该模型具有很好的适用性,可以较好地模拟射流问题。

聚酰亚胺LB膜的制备物性和应用

介绍了聚酰亚胺LB膜的制备方法,包括先母体的制备、制膜装置、制膜工艺等;也叙述了LB膜的性能如膜厚、电性能、耐热性。同时介绍了几种LB膜的应用。

Lattice Boltzmann simulation of the effects of cavity structures and heater thermal conductivity on nucleate boiling heat transfer

The boiling heat transfer technology with cavity surfaces can provide higher heat flux under lower wall superheat,which is of great significance for the cooling of electronic chips and microelectromechanical devices.In this paper,the boiling characteristics of the cavity surfaces are investigated based on the lattice Boltzmann(LB)method,focusing on the effects of cavity shapes,sizes,and heater thermal conductivity on the heat transfer performance.The results show that the triangular cavity has the best boiling performance since it has less residual vapor and higher bubble departure frequency than those of the trapezoidal and rectangular cavities.As the cavity size increases,the enhancement of heat transfer by the cavity mouth is suppressed by the heat accumulation effect at the heater bottom.The liquid rewetting process during bubble departure is the reason for the fluctuation of the space-averaged heat flux,and the heater thermal conductivity determines the fluctuation amplitude.The evaporation of liquid in the cavity with high thermal conductivity walls is more intense,resulting in shorter waiting time and higher bubble departure frequency.

基于晶格—Boltzmann方法的纳米流体流动和传热模型

纳米流体是由流体与纳米粒子组成的悬浮体。悬浮在流体中的纳米粒子会受到运动阻力、布朗力、扩散力和重力等作用力的影响,因而其运动规律极其复杂。本文运用晶格-Boltzmann(LB)方法,建立纳米流体流动和传热模型模型,对纳米流体的流型结构和温度场进行了模拟和分析。

不锈钢在NaCl溶液中点蚀的数值模拟

基于格子玻尔兹曼(LB)方法,为模拟多相多组分流动与传输、电化学反应、固液相间转化等,建了不锈钢点蚀的LB腐蚀模型。应用该模型,得到了不锈钢在点蚀全过程中点蚀坑形貌特征变化以及不同组分的含量分布情况。该模型能够清晰地说明不锈钢点蚀的反应机理,包括点蚀成核、点蚀的亚稳态过程以及点蚀的稳态过程。对比模拟结果同试验结果可以发现,腐蚀量随时间变化的趋势大致相同,这证明了该模拟方法的准确性。

二氧化钛超薄膜的组装

Excellent quality ultrathin TiO2 films were obtained from tetrabutyl titanate andarachidic acid by a two-dimensional sol-gel process, followed with thermal decomposition ofthe complex multilayer Langnuirblodgett films. The UV-vis spectra of the multilayer filmsshowed a blue shift of the absorption band relative to those of bulk TiO2, inlplying the for-mation of nanoparticles of TiO2-based condensates. Their uniformity and rutile type struc-ture were revealed by TEM and XRD results.

CdS/PbS复合超微粒的有序组装和光谱特性

用离子交换法制备ＣｄＳ／ＰｂＳ复合超微粒，用ＬＢ膜技术进行有序组装。ＣｄＳ／ＰｂＳ复合超微粒的吸收光谱介于ＣｄＳ和ＰｂＳ超微粒的吸收光谱之间。ＣｄＳ／ＰｂＳ超微粒／硬脂酸ＬＢ膜具有层状结构，吸收光谱和荧光光谱发生明显变化。ＣｄＳ／ＰｂＳ复合超微粒是以ＣｄＳ为核心，ＰｂＳ为壳层的表面包裹结构。在ＣｄＳ比例较高和适当表面压下。

基于比幅分区法的室内定位技术研究与应用

文中通过增加定位硬件设备的性能和复杂度,并对比幅测向法进行优化,提出了一种新型比幅分区法的室内定位算法和系统。该系统和算法可以有效的减少由于移动端的极化误差、人体遮挡、路径损耗差异、多径衰落造成的定位误差。基于该方法的实验证明,该方法实施方便、具有较高的定位精度、鲁棒性强、易于WIFI/蓝牙/RFID系统兼容的特点,极具实用价值。

有序分子膜技术在无机超薄膜制备中的应用

本文以LB技术、自组装技术、SILAR方法为例简要介绍了近年来有序分子膜技术在无机超薄膜构筑方面的应用。并对其今后的发展进行了展望。