恒定磁场(0.4 T)对聚苯胺微观取向结构的影响

在恒定磁场(0.4 T)条件下, 采用乳液聚合法合成了十二烷基苯磺酸掺杂聚苯胺(PAn), 并通过透射电子显微镜(TEM)、X射线衍射(XRD)、傅立叶红外光谱(FT-IR)、电导率、产物复合膜电阻率的各向异性, 以及产物间甲酚(m-cresol)溶液的电导率在外电场作用下变化的分析与表征, 系统研究了磁场对PAn的微观取向结构及其性能的影响. 实验结果表明, 与无磁场条件下制备的聚苯胺(PAn_-O)相比, 磁场条件下制备的聚苯胺(PAn_-M)具有更高的结晶度和明显的微观取向结构, 其微粒有序排列和堆砌成了许多具有一定长/径比的条状聚集体; PAn_-M/PVA(聚乙烯醇)复合膜经磁化成膜, 可以表现出明显的导电性能的各向异性; PAn_-M/m-cresol溶液的电导率, 在有、无外场(电场)作用下存在明显的突变. 分析认为: 由于磁场条件下制备的PAn粉末存在着微观取向和显著的抗磁磁化率的各向异性, 在外磁场作用下其堆砌方式会进一步演变成宏观的取向, 随之表现出物理性能上的各向异性.     

磁场及反应条件对十二烷基苯磺酸掺杂聚苯胺聚合成膜速率的影响

在恒定磁场(0.6 T)条件下, 采用过硫酸铵(APS)为引发剂, 在乳液体系中合成了十二烷基苯磺酸(DBSA)掺杂的聚苯胺(PAn). 借助石英晶体微天平(QCM)实时监测苯胺(An)在金电极表面聚合成膜过程, 探讨了磁场、APS浓度、DBSA浓度及反应温度对DBSA掺杂聚苯胺聚合成膜速率的影响. 实验结果表明, PAn在金电极表面的成膜速率随磁场强度的增加而增大; 由反应物浓度与PAn成膜速率的关系, 得出相应的动力学反应级数; 由PAn膜的增长速率与温度的关系, 得到成膜过程的活化能为41.08 kJ/mol. 考察了PAn聚合过程的UV-Vis光谱, 并与QCM所得的结果进行了比较. 结果显示, 在相同时间内, 磁场环境下合成的PAn的吸收强度大于无磁环境下合成的PAn.     

导电聚苯胺电极柱识别天冬氨酸对映体的研究

以苯胺为单体,L-天冬氨酸(L-Asp)为模板分子,采用化学氧化法合成了掺杂L-Asp的导电聚苯胺(PAn).将PAn作为固定相填充到多孔陶瓷管中制备导电PAn电极柱,并以此电极柱作为工作电极.循环伏安图表明PAn电极柱具有良好的电化学活性.在电极柱上施加-0.6 V的还原电位,PAn中掺杂的L-Asp发生脱掺杂,从而在PAn膜上留下了与L-Asp完全匹配的空穴.由于PAn具有掺杂/脱掺杂完全可逆的独特性能,因此对带有分子印迹的PAn电极柱施加0.5 V的正电位后,由于存在强烈的分子印迹作用,L-Asp在电极柱上被富集,而D-天冬氨酸(D-Asp)的富集效果远低于L-Asp,从而实现对Asp对映体的识别.     

绝缘聚合物对聚苯胺复合物导电性能的影响

将十二烷基苯磺酸掺杂的聚苯胺(PAn DBSA)与乙烯丙烯酸共聚物(EAA)或聚烯烃弹性体(POE)进行溶液共混制得了PAn DBSA/EAA或PAn DBSA/POE导电复合物。研究了绝缘聚合物的化学结构对聚苯胺导电复合物形态结构及电性能影响。结果表明,极性聚合物EAA中的羧基能与PAn形成氢键并发生掺杂作用,复合物中卷曲的PAn主链能充分展开,导致PAn/EAA复合物具有非常低的逾渗域值(1.5%),PAn含量为20.0%时,电导率高达7.1S/cm。POE为非极性共聚物,与极性较强的PAn相容性较差,导致PAn/POE复合物具有较高逾渗域值(5.0%),PAn含量为20.0%时,电导率仅为3.0×10-5S/cm。     

BaTiO_3包覆粉煤灰漂珠/聚苯胺复合材料的制备及电流变性能

首先利用原位化学氧化聚合法将聚苯胺包覆在粉煤灰漂珠表面(FAFB/PAn),再利用低温溶胶凝胶-水热法制备BaTiO_3包覆FAFB/PAn的复合材料(FAFB/PAn/BaTiO_3),形成内核为空心漂珠、外壳依次为导电层、绝缘层的核/壳结构.采用FTIR、XRD、SEM、数字式四探针以及LCR介电谱仪对FAFB/PAn/BaTiO_3复合材料的结构与性能进行分析;以FAFB/PAn/BaTiO_3为分散相制备的电流变液,对其悬浮性及外加电场下的剪切应力进行测试.FTIR和XRD结果证明了利用本文的实验方法可成功将PAn和BaTiO_3引入到FAFB表面.电导率测试结果表明,复合材料电导率为7.8×10~(-4)S·cm~(-1),相对BaTiO_3提高了近2个数量级.在1~2000 k Hz交变电场频率测试范围内,FAFB/PAn/BaTiO_3具有相对较好的介电性能:当f=1 k Hz时εr最大为598,随电场频率的增加介电常数逐渐减小,对应的介电损耗tanδ最大为1.14,且随电场频率的增加介电损耗逐渐减小,当f=200 k Hz时tanδ=0.75,后趋于平稳.比较了7天的悬浮稳定性发现,FAFB/PAn稳定性最好,悬浮率可达88%,而包覆BaTiO_3后与纯BaTiO_3相当,仅为60%.在电场作用下FAFB/PAn/BaTiO_3表现出较明显的电流变性能,即当E=4.0 k V/mm时,剪切应力达631 Pa,且具有较好的抗击穿能力.     

聚苯胺的电荷传输特性及其分子量依赖性

研究了樟脑磺酸掺杂的聚苯胺 (PAn CSA)膜的导电性对温度的依赖性 ,发现有一个临界温度 (Tc) ,当测试温度高于Tc 时 ,PAn CSA显示金属的导电特性 ,反之则显示半导体导电特性 .Tc 和聚苯胺的分子量有关 ,分子量越高 ,Tc 越低 .单向拉伸后 ,PAn CSA膜的电导率大大提高 ,拉伸 6 0 %时 ,室温电导率可达 75 0S/cm ,但Tc 不随拉伸而变化     

掺杂率对乳液聚合制备聚苯胺结构性能的影响

对乳液聚合的十二烷基苯磺酸(DBSA)掺杂聚苯胺(PAn)进行不同pH值溶液浸泡处理。采用元素分析、红外光谱分析、X射线衍射及热失重分析等手段，研究了不同掺杂率对PAn结构性能以及PAn在普通有机溶剂中的溶解性能和导电性能的影响。结果表明：随DBSA掺杂率的增加，PAn的电导率及其在三氯甲烷中的溶解度增加，带有烷基长链的DBSA使PAn形成以DBSA为间隔的有序层状结构；而且合成的PAn-DBSA热稳定性良好。     

电位调控的“离子印迹”聚苯胺电极柱在阴离子分析中的应用

以氯离子为掺杂阴离子,采用化学氧化法合成了聚苯胺(PAn).将PAn作为导电固定相填充到多孔陶瓷管中以制备PAn电极柱,并以此电极柱作为三电极体系中的工作电极.在电极柱上施加0.6V的负电位使PAn呈还原态,PAn中掺杂的氯离子发生脱掺杂,从而在PAn骨架上留下在三维空间上与氯离子完全匹配的空穴,即形成了“离子印迹”P...     

聚苯胺/顺丁橡胶复合导电膜的制备与性能(Ⅱ)

采用再掺杂方法制得了樟脑磺酸掺杂的聚苯胺(PAn-CSA),用溶液共混法制备PAn／BR导电复合膜．研究了聚苯胺与顺丁橡胶(BR)复合膜在间甲酚二次掺杂前后电导率的变化。实验表明:CSA对聚苯胺有较好的掺杂作用;二次掺杂使PAn复合膜电导率明显提高,其导电渗滤阈值略有降低,使卷曲的二次掺杂PAn链展开并通过分子链间的相互作用而自行组成导电通路．     

过氧化氢在磺酸二茂铁掺杂的聚苯胺上的电催化氧化

在含有磺酸二茂铁溶液中合成的聚苯胺（PAnFc）和不含磺酸二茂铁溶液中合成的聚苯胺（PAn）,在pH 5.0的缓冲溶液中均能催化过氧化氢的氧化,但PAnFc的催化活性高于PAn.催化效应的证据是过氧化氢在裸铂电极上的氧化电位为0.59 V(vs SCE),而在PAnFc电极仅是0.48 V,以及过氧化氢在PAnFc电极上的阳极峰电流是裸铂电极上的5.3倍.根据这种催化特性,用PAn和PAnFc固定葡萄糖氧化酶形成酶电极.实验结果表明,PAnFc酶电极的响应电流比PAn酶电极高得多,而且响应快.这是由于PAnFc在pH 5.0缓冲液中的电化学活性高于PAn,以及掺杂在聚苯胺中的磺酸二茂铁起着重要的电荷传递作用.     

掺杂态聚苯胺的共振拉曼光谱研究

观测了聚苯胺(PAn)在不同状态(掺杂、反掺杂、碱式、氧化、还原)下的拉曼光谱.根据其光谱特性,结合其它实验结果,提出了掺杂态PAn分子链包含电荷分布不等的三种苦环和二种氮原子的四单元苯醌变体模型,指出质子酸掺杂系分子内氧化还原反应,讨论了PAn氧化程度对掺杂效率的影响.     

化学聚合法制备电容器用聚苯胺

采用化学聚合法制备电容器用聚苯胺,研究了不同的掺杂剂对聚苯胺(Pan)电导率的影响,并利用TGA、FT-IR等分析手段对聚苯胺的热老化性质进行研究,研究了乳液法产物的二次掺杂现象,并把萃取液涂布于铝箔表面制成固体电容器,结果表明这种聚苯胺应用于固体电容器是可行的。     

导电聚苯胺与Fe3O4磁性纳米颗粒复合物的合成与表征

对十二烷基苯磺酸(DBSA)掺杂的导电聚苯胺(PAn-DBSA)的氯仿溶液,在pH为中性的条件下,采用“修饰-再掺杂(Modification-re-doped)法”合成了含有Fe₃O₄磁性纳米颗粒的导电聚苯胺复合物的有机溶液.用FTIR,XRD,TEM,UV-Vis和SQUID等对所得复合物进行了表征,结果表明,该复合物呈现超顺磁性和半导体的导电性,并具有较好的透明性.     

Preparation and properties of polyaniline codoped with ionic liquid and dodecyl benzene sulfonic acid or hydrochloric acid

Three nanosized polyaniline (PAn) powders doped with ionic liquid and dodecyl benzene sulfonic acid (DBSA) or hydrochloric acid have been prepared for the first time in an ionic liquid-water emulsion system. The oil-phase ionic liquid is used as both a monomer solvent and doped counterion. The effects of different counterions on the properties (molecular weight, electrical conductivity, glass transition temperature, electrochemical activity) of PAn are investigated. PAn codoped with 1-butyl-3-methylimidazolium hexafluorophosphate ionic liquid and DBSA shows the highest molecular weight (81 104 g mol^?1), the highest electrical conductivity (1.85 S cm^?1), the lowest glass transition temperature (181°C) and the highest redox reaction current density; PAn doped with an ionic liquid only exhibits the lowest conductivity (0.0018 S cm^?1) and a lower redox reaction current density. PAn codoped with ionic liquid and HCl shows higher conductivity. They also exhibit good electrochemical stability and charge-discharge performance. These indicate that codoping of different counterions under acidic conditions could improve the degree of oxidation and doping ratio of PAn and could result in high electrical conductivity and good electrochemical properties.     

聚N-甲基苯胺的质子酸掺杂

聚N-甲基苯胺(PMAn)可用酸碱进行可逆的掺杂及反掺杂。掺杂使电导增大。掺杂过程在本质上是链的质子化过程,与阴离子无关。用FTIR、UV-VIS、ESR表征了掺杂前后结构的变化。结果表明,掺杂后链上来偶电子增加,电子及电荷更加离域化,并与电导率增大相吻合。PMAn的导电载流子可能是离域化的阳离子自由基。     

Reversible Doping of a Dithienothiophene‐Based Conjugated Microporous Polymer

Dithienothiophene (DTT) based conjugated microporous polymers (CMPs) were synthesized by bulk and electrochemical oxidative polymerizations. Spectroelectrochemical measurements showed that DTT‐CMP can be reversibly oxidized and reduced, accompanied by a significant change of the absorption properties making the material interesting for electrochromic devices. Reversible doping and dedoping of the bulk polymer network was also observed using iodine and ammonia, respectively. Nitrogen gas sorption measurements of the neutral, doped, and dedoped polymer networks indicated the presence of iodide species within the pores, and the conductivity of the networks is highly increased upon doping with iodine. The introduction of the strong electron donor DTT into a conjugated porous network, and the ability for redox switching, make DTT‐CMPs interesting materials for organo(opto)electronic devices and sensors.     

ANALYSIS AND CHARACTERIZATION OF MICROSCOPIC MORPHOLOGY AND ORIENTATION STRUCTURE OF POLYANILINE POLYMERIZED IN A CONSTANT MAGNETIC FIELD

Conductive polyaniline(PAn-_M and PAn-_O) doped with dodecylbenzene sulfonic acid(DBSA) was synthesized by using emulsion polymerization method in the presence of a constant magnetic field(0.4 T) and the absence of magnetic field, respectively.The effects of magnetic field on the microscopic morphology and orientation structure of PAn were generally analyzed and characterized by using transmission electron microscope(TEM),X-ray diffraction(XRD) and through the conductivity anisotropy of unit resistance o...     

Synthesis of Poly(N-ethylaniline) Nanoparticles Synthesis and Characterization of Organically Soluble Conducting Poly(N-ethylaniline) Nanoparticles using Acrylic Acid as a Soft Template

In this paper, we report the synthesis of poly(N-ethylaniline) (PNETA) by using tartaric acid (TA) as an organic acid dopant by aqueous polymerization method of N-ethylaniline using ammonium per sulphate (APS) as an oxidant and acrylic acid (AA) as a soft template. This is a new polymerization method for the direct synthesis of the emeraldine salt form of poly(N-ethylaniline) in bulk quantity, which is soluble in organic solvents such as m-cresol and N-methyl pyrrolidinone. The prepared polymers were characterized by UV, FTIR, XRD, TGA, SEM and conductivity measurement studies. The results are discussed with reference to HCl doped poly(N-ethylaniline). It is observed that PNETA/TA/AA polymer is comparatively more soluble in m-cresol than that doped with HCl in its salt form. The formation of emeraldine salt phase and dopping process was confirmed by FTIR and UV-Vis spectroscropy. We demonstrate the effect of organic dopant on the morphology and conductivity of the PNETA. It was found that, PNETA doped with TA synthesized using acrylic acid (AA) as a soft template display higher doping level, crystallinity and solubility in common organic solvent. On the contrary, HCl doped polymer was lowered at doping level and amorphous in nature which reflects the role of organic dopant and soft template. X-ray diffraction studies indicate that the PNETA/TA/AA doped samples exhibit higher crystallinity, which indicates enhanced polymer sub-chain alignment as compared to HCl doped polymer. This is also manifested by the FTIR studies. SEM result also revealed the continuous morphology and sub-micrometer size, evenly distributed particles of the PNETA/TA/AA doped polymer.