固相法合成苯胺与邻甲氧基苯胺共聚物及其性能

以苯胺和邻甲氧基苯胺为单体,甲磺酸为掺杂酸,用固相法合成了甲磺酸掺杂苯胺与邻甲氧基苯胺共聚物。 通过红外光谱、紫外可见吸收光谱、X射线衍射、透射电子显微镜、循环伏安和电导率等对共聚物进行了结构表征和性能测试。 结果表明,不同摩尔比的苯胺与邻甲氧基苯胺共聚物处于中间氧化态,随邻甲氧基苯胺含量的增大,共聚物的掺杂率降低。 共聚物具有较高的结晶性和纤维状形貌,当苯胺与邻甲氧基苯胺摩尔比为1∶1时,具有较高的电化学活性,其导电率为1.65 S/cm。     

PEG链段对聚乙二醇接枝聚苯胺结构与性能的影响

将苯胺(An)与甲氧基聚乙二醇邻氨基苯基醚氧化共聚,制备了梳状接枝共聚物PAn-g-PEG.研究了梳状接枝共聚物的UV-Vis、微观结构、热稳定性和溶解成膜性等随侧链聚乙二醇(PEG)链段的变化规律.结果表明随PAn-g-PEG中PEG链段长度和含量的提高,共聚物的溶解性和成膜性能显著提高,电子导电率缓慢降低,热稳定性变差.共聚物具有微相分离结构,其形态随PEG链段的改变分别为“海-岛相”和“双连续相”;提高PEG链段长度和含量,PAn-g-PEG能形成稳定的水溶性分散体系,并能浇注成柔韧平整的导电高分子自支撑膜.     

聚合物光电功能材料的合成与器件探索

在本实验室以前工作的基础上,利用Wittig反应和Wittig-Horner反应,合成了含有三苯胺单元的交替共聚物,它们具有良好的溶解性、成膜性和热稳定性,是一类具有较高效率的发绿光材料.通过在聚合物中引入芴和联苯的结构以及在PPV单元上引入不同链长的侧基等,研究了聚合物的几何构型以及位阻等因素对材料性质的影响.通过三元共聚研究了聚合物链中三苯胺含量对发光性能的影响,其中以三苯胺、PPV和二甲氧基PPV组成的三元共聚物在聚合物LED中得到了良好的电致发光性能.     

联苯胺与二苯胺共聚物的界面聚合及其表征

采用界面聚合法合成了聚联苯胺、聚二苯胺以及联苯二胺与二苯胺的共聚物。利用红外光谱(FT-IR)、紫外可见吸收光谱(UV-vis)、电子扫描显微镜(SEM)、X射线衍射(XRD)、循环伏安等手段初步探讨了单体配比对共聚物形貌、结构及性能的影响。结果表明:界面聚合法合成的聚联苯胺呈现微米级棒状分布,随着共聚物中二苯胺结构单元的增加,棒状结构消失,聚合物趋于颗粒状分布;共聚后聚合物的共轭程度下降,但其结晶性与电化学行为得到了一定的改善;当共聚物中联苯胺与二苯胺的单体摩尔比为1/2时,共聚物电化学行为最佳。     

聚邻甲苯胺的合成及物理化学性质

聚苯胺的导电性和电化学特性已被广泛地研究。最近,对苯胺衍生物的聚合物也开始了研究,如聚邻甲氧基苯胺、聚邻苯二胺和聚邻氨基酚,其中聚邻甲氧基苯胺是一种可溶性的导电高分子材料。为了探讨苯胺聚合的机理和苯胺上不同基团对聚苯胺性质的影响,我们使用了十六种苯     

水杨酰苯胺衍生物分子内电荷/质子转移荧光

将苯甲酰苯胺(BA)类电荷转移(CT)反应基团耦合到具有激发态分子内质子转移(ESIPT)反应通道的水杨酸(SA)分子中,设计合成了苯胺对/间位取代的水杨酰苯胺及其羟基甲基化衍生物邻甲氧基苯甲酰苯胺,考察了环己烷、乙醚、乙腈和甲醇中两类水杨酰苯胺衍生物吸收光谱和荧光光谱的溶剂效应和取代基效应.结果表明,水杨酰苯胺的荧光为SA-型质子转移(PT)荧光,对取代基的依赖性较小;当电子给体苯胺基的给电子能力提高时,如N-甲基水杨酰苯胺分子,其荧光为BA-型CT荧光.而羟基甲基化后的衍生物邻甲氧基苯甲酰苯胺则表现出与BA类似的荧光光谱特性,具有明显的取代基效应.认为水杨酰苯胺衍生物的激发态存在着相互竞争的BA-型CT和SA-型PT通道,二者可经苯胺基上取代基的电子效应调控.     

三苯胺类小分子的合成及其AIE性能研究

以二苯胺、碘苯、对碘甲苯以及对碘苯甲醚为原料,合成了三苯胺及其衍生物T1~T5(4-甲氧基三苯胺、4-甲基三苯胺、4-醛基三苯胺、4-乙烯基三苯胺),并对其紫外-可见吸收光谱与荧光光谱进行了检测。结果表明,连有甲氧基、甲基、乙烯基取代基的三苯胺化合物在甲醇/氯仿混合溶液中具有聚集诱导发光(AIE)性能;而醛基取代的4-醛基三苯胺表现出了聚集荧光猝灭(ACQ)现象。     

聚间甲氧基苯胺的结构及其氧化还原活性研究

应用循环伏安法研究经HCl、TSA和HClO4等不同酸掺杂的聚间甲氧基苯胺(PmMAn)的电化学活性.结果表明,HClO4是合成PmMAn的最佳酸介质,在此介质中得到的聚合产物具有良好的氧化还原活性.FT IR,SEM和XRD测试分别说明,酸根离子作为抗衡阴离子嵌入PmMAn分子链,并对聚合物的氧化还原活性有较大影响;PmMAn表现出典型的高分子晶体性质,符合单斜晶系的特征.     

聚苯胺衍生物膜修饰电极的电化学和催化性质

采用聚 2，5 二甲氧基苯胺（PDMAn）、聚邻甲苯胺（POT）膜修饰电极，以异丙醇（i P）氧化为模型反应，研究功能性膜电极的电催化性能.两种聚合物的伏安行为都表现为两对氧化还原峰；与镀铂的Pt电极比较，Pt金属化的PDMAn和POT修饰电极，大大提高了i P氧化电流密度，而且随着循环次数增加，氧化电流不断增大，表明功能性膜修饰电极具有较高的催化活性. POT修饰电极在较低的铂含量下就表现出对i P的强烈催化活性，而且对低浓度i P的氧化，具有较高的响应灵敏度；此外POT还具有良好的环境稳定性，可望成为一种具有实际应用前景的电化学传感器.     

邻香草醛缩邻甲氧基苯胺镍配合物的合成、表征及抗菌活性

通过邻香草醛与邻甲氧基苯胺的缩合反应制得邻香草醛席夫碱,并通过溶剂扩散法合成其金属镍配合物,其结构经红外、核磁共振、紫外及X-单晶衍射等表征。采用纸片法测定了两种化合物对大肠杆菌、金黄色葡萄球菌和白色念珠菌的抑制活性。结果表明∶邻香草醛缩邻甲氧基苯胺席夫碱及其镍配合物对大肠杆菌、金黄色葡萄球菌和白色念珠菌均有较好的抑菌...     

导电聚苯胺的合成、结构、性能和应用

概述了中国科学院长春应用化学研究所对导电聚苯胺合成、结构、性能和应用的研究.从合成可溶性的聚苯胺入手,阐明了聚苯胺的若干基本化学和结构问题,提出并证明了掺杂态聚苯胺的结构模型和掺杂机理;除了质子酸掺杂外,发现了聚苯胺的碘氧化掺杂、光助氧化掺杂和K+注入还原掺杂;开发了分别以环氧树脂和聚氨酯为载体的聚苯胺防腐涂料;运用掺杂剂诱导的溶解性,通过合成带聚乙二醇链的膦酸掺杂剂,实现了导电态聚苯胺的水体系加工.其中的聚苯胺树脂及防腐涂料的生产技术,已经完成中试,正在走向产业化.     

聚丙烯酰胺/蒙脱土纳米复合物-聚乙烯醇共混膜的制备及其渗透汽化性能

用原位聚合法制备聚丙烯酰胺/蒙脱土(PAM/MMT)纳米复合材料, 通过透射电镜研究了蒙脱土在聚丙烯酰胺基体中的形貌和分布. 结果表明, 蒙脱土以片层结构分布在聚合物基体中. 用超声波分散聚乙烯醇和聚丙烯酰胺-蒙脱土共混铸膜液制得共混膜, 用红外吸收光谱和扫描电镜研究了两者的相互作用和形貌. 考察了共混膜在异丙醇-水混合溶液中的溶胀吸附性能及共混比和蒙脱土含量对膜分离性能的影响, 结果显示, 聚乙烯醇膜中添加适量的蒙脱土纳米粒子可以大大改善膜的分离选择性.     

聚苯胺水性涂料的制备及其防腐性能

将有机磷酸(乙二醇单甲醚磷酸酯和乙二醇单甲醚磷酸二酯混合物)（OP）掺杂得到的导电聚苯胺（PANI-OP）加入到水性环氧树脂（WER）中,制备了聚苯胺水性防腐涂料,并且研究了其防腐蚀性能和防腐蚀机理。 透射电子显微镜观察表明,导电聚苯胺质量分数为0.1%时,其粒径分布范围为50~100 nm。 电化学阻抗谱以及开路电压的变化表明,聚苯胺的存在显著提高了涂层的防腐效果。 金属基底光电子能谱结果表明,聚苯胺水性涂料良好的防腐性能缘于在金属表面生成了致密的氧化物膜以及掺杂剂离子与溶解金属生成了不溶性的盐。     

固相法制备聚噻吩/聚吡咯/二氧化钛膜及电化学腐蚀性能

在水蒸气气氛下,制备出表面富含羟基的纳米Ti O_2颗粒,然后在室温和氧化剂三氯化铁存在下,通过化学固相氧化法,在不锈钢表面制备出聚噻吩/聚吡咯/Ti O2(PTH/PPy/TiO_2)薄膜。采用X射线衍射(XRD)、扫描电子显微镜(SEM)、傅里叶变换红外光谱(FT-IR)、热重分析(TG)、电化学阻抗(EIS)等技术手段对产物的微观形貌、热稳定性和耐腐蚀性能进行了研究,并讨论了不同纳米TiO_2含量对复合材料的结构和性能的影响。结果表明,在其使用温度(20~300℃)下,PTH/PPy/6%Ti O_2(质量分数)膜热分解温度为450℃,能够满足其使用要求。用PTH/PPy/TiO_2膜保护的不锈钢比裸露的不锈钢的自腐蚀电位高出0.8 V以上,而腐蚀电流密度降低了2个数量级。TiO_2的添加明显的提高了PTH/PPy材料的抑制腐蚀的能力,并且由于TiO_2的加入能够使聚合物与无机纳米粒子之间能够紧密地结合在一起,减少膜的缺陷,增大复合材料与金属基体的力学性能,使得膜结构更加的致密,从而减缓不锈钢的腐蚀。     

Polyaniline-poly(vinylidene fluoride) blend microfiltration membrane and its spontaneous gold recovery application

Structural regular polyaniline was synthesized via a modified-chemical oxidative polymerization reaction. Highly hydrophilic polyaniline (PANi) and polyaniline-poly(vinylidene fluoride) blend (PANi-PVDF) membranes were prepared by solution casting and phase inversion techniques. Both of the mechanical and filtration properties of the membranes depend on the polymer composition and doping level of the blends. The elasticity of the membrane is greatly improved upon introducing poly(vinylidene fluoride) into the blend. The water permeability of the blend membranes is further enhanced when the membranes are doped with hydrochloric acid. The PANi-PVDF blend membranes are capable of recovering metallic gold from the acid/halide leaching streams spontaneous and sustainably, and are promising candidates for wastewater treatments in electronic industries.     

Corrosion studies of polyaniline/coconut oil poly(esteramide urethane) coatings

Advancements in the area of conducting polymers have been towards their application as effective corrosion protective coatings to replace the use of heavy metals as additives in the coatings industries, which are now considered to be an environmental as well as health hazard. With the aim to utilize a sustainable resource based polymer for the development of an anti‐corrosive conducting coating material, coconut oil based conducting blend coatings of polyaniline and poly(esteramide urethane) were prepared by loading different ratios (2, 4 and 8 wt%) of polyaniline in poly(esteramide urethane). Then their physico‐chemical, thermal, morphological, conductivity and anti‐corrosive coating characteristics were investigated. The effect of a 2 year environmental aging process on the coated samples was analyzed by thermal methods as well as by corrosion studies. Results showed that the corrosion protective performance of the blend coatings was far superior than that of plane poly(esteramide urethane). These coatings showed enhanced corrosion protection in acid as well as alkaline environments upto 360 and 192 hr respectively. Conductivity of the blends was found to be in the range 2.5 × 10^?5–5.7 × 10^?4 S/cm^?1. An increase in the thermal stability of the blend coatings and a decrease in their conductivity was noticed in the aged samples which was attributed to the crosslinking effect. The corrosion protective performance of the coatings remained almost unaffected even after 2 years of aging. Copyright © 2005 John Wiley & Sons, Ltd.     

水基导电聚苯胺/二氧化硅杂化材料的防腐性能研究(英文)

利用羧基同导电聚苯胺(cPANI)主链上的氮原子的相互作用,制备了静电作用型水基导电聚苯胺/二氧化硅杂化材料,研究了杂化材料涂层对冷轧钢板的防腐性能.在3.5%NaCl中,含11 wt%cPANI的杂化材料涂层的腐蚀电位比纯二氧化硅涂层正移了200 mV,腐蚀电流从13.4μA降到2.4μA,下降了5倍,表明含cPANI的静电作用型杂化涂料使冷轧钢板表面变得更惰性.阻抗分析结果表明,cPANI含量为11 wt%的静电作用型杂化材料的阻抗比纯无机二氧化硅涂层大一个数量级,而且在碱性介质中浸泡10天后,杂化材料涂层的阻抗仍然保持稳定,而纯无机二氧化硅涂层的阻抗比初始值下降了一个数量级.杂化材料的形态分析结果表明,cPANI在静电作用型cPANI/二氧化硅杂化材料中的分布比在普通cPANI/二氧化硅杂化材料中更加均匀一致,从而使得它比普通的cPANI/二氧化硅杂化材料具有更好的防腐效果.     

UV-Vis and Raman Spectral Analysis of Polyaniline/Gold Thin Films as a Function of Applied Potential

Polyaniline and polyaniline/gold films were prepared by potentiodynamic oxidation of aniline in 1 M H₂SO₄ aqueous solution, and their electrochromic properties were investigated by UV-Vis and Raman spectroscopy. Both tetrachloroaurate and gold nanoparticles were used to deposit gold onto or inside the polyaniline film based on the deposition technique used. Polyaniline films showed multiple color changes (blue to green to yellow) depending on the electrochemical reactions in the potential range ?0.2 to 0.8 V vs. Ag/AgCl. The color of polyaniline films changed from transparent green to yellow at the anodic peak around 0.2 V and gradually changed from green to dark blue at potentials higher than 0.5 V. The deterioration of electrochromic properties is caused by hydrolysis of the diimine structure formed by oxidation at 0.8 V. Furthermore, the polyaniline films showed enhanced Raman characteristics (due to SERS) depending on the treatments with gold and the potentials applied to the films to control the oxidation state.     

Morphological study on water‐borne conducting polyaniline‐poly(ethylene oxide) blends

Conducting polyaniline‐poly(ethylene oxide) blends were prepared from their aqueous solutions. The blends displayed an electrical conductivity percolation threshold as low as 1.83 wt % of polyaniline loading. As demonstrated by scanning electron microscopy, polarized optical microscopy, and wide‐angle X‐ray diffraction studies, the conducting polyaniline took a fibrillar morphology in the blend, and it existed only in the amorphous phase of poly(ethylene oxide). A three‐phase model combining morphological factors instead of a two‐phase model was proposed to explain the low‐conductivity percolation threshold. © 2002 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 40: 605–612, 2002; DOI 10.1002/polb.10114     

pH- and thermosensitive polyaniline colloidal particles prepared by enzymatic polymerization

Polyaniline colloids were prepared by enzymatic polymerization using chitosan and poly(N-isopropylacrylamide) as steric stabilizers. The resulting nanoparticles undergo flocculation by changing the pH or temperature of the aqueous dispersions. The environmentally responsive behavior of these colloids contrasts with that of polyaniline colloids synthesized using poly(vinyl alcohol) as the steric stabilizer. The colloid size was a function of the steric stabilizers and ranged from approximately 50 nm for polyaniline particles prepared in the presence of chitosan and partially hydrolyzed poly(vinyl alcohol) up to 350 nm for the particles synthesized using poly(N-isopropylacrylamide). UV-visible and Fourier transform infrared spectroscopic studies indicate that polyaniline colloids are spectroscopically similar to those obtained by traditional dispersion polymerization of aniline by chemical oxidation. These polyaniline colloids have potential applications in thermochromic windows and smart fluids.