纳米石墨薄片/聚吡咯复合材料的制备及导电性能

膨胀石墨经过超声处理制备了纳米石墨薄片。以其为导电填料，对甲苯磺酸为掺杂剂，FeCl₃·6H₂O为氧化剂，引发吡咯单体发生原位聚合，制备出纳米石墨薄片/聚吡咯(NanoGs/PPy)复合材料。利用红外光谱(FTIR)、扫描电镜(SEM)和透射电镜(TEM)表征了材料的组成和结构。结果表明，石墨薄片被聚吡咯完全包覆；并且以纳米级尺寸分散在聚吡咯基体中。热失重(TG)分析和电导率测试结果表明，复合材料的耐热性能和导电性能较纯聚吡咯有所提高。     

导电聚吡咯的研究

介绍了1995年获国家自然科学二等奖项目“导电聚吡咯的研究”（主要完成人：钱人元、李永舫、毕先同、裴启兵、鄢宝珍）的主要研究成果以及获奖后的研究新进展,涉及的研究内容包括导电聚吡咯的电化学聚合过程和机理、导电聚吡咯的结构、稳定性、电化学性质以及导电聚吡咯复合材料的制备等。     

吡咯的连续气相聚合反应Ⅱ聚吡咯与两种通用高分子的导电复合物

研究以通用高分子聚己内酰胺（ＰＡ－６）及聚对苯二甲酸乙二醇酯（ＰＥＴ）为基质材料，用连续气相聚合的方法，使聚吡咯与之复合，可得到聚吡咯／ＰＡ－６（ＰＰｙ／ＰＡ－６）及聚吡咯／聚对苯二甲酸乙二醇酯（ＰＰｙ／ＰＥＴ）导电复合纤维，电导率最高可达１０－１Ｓ／ｃｍ，力学性能有所下降。     

氢键诱导的聚吡咯/苯磺酸功能化多壁碳纳米管的制备及其电化学行为

采用原位芳基重氮化反应对碳纳米管进行苯磺酸功能化, 进而制备了聚吡咯/苯磺酸化碳纳米管复合材料(PPy/f-MWCNTs), 通过透射电镜(TEM)及扫描电镜(SEM)测试发现, 氢键诱导使聚吡咯成功地包覆在碳纳米管表面. 循环伏安和恒流充放电测试结果表明, 复合材料具有良好的电化学电容性能, 当聚吡咯与苯磺酸化碳纳米管质量比为1:1时, 复合材料在1.0 A·g-1的电流密度下的比容量达266 F·g-1, 而且聚吡咯利用率比未功能化聚吡咯/碳纳米管(PPy/p-MWCNTs)和纯聚吡咯(PPy)提高了1倍以上.     

电化学合成吡咯与己内酰胺导电共聚物

采用恒电位方法实现了吡咯与己内酰胺在导电玻璃电极上的直接电化学共聚,聚合反应在含有0.1mol/L吡咯和1.5 mol/L己内酰胺的硝基甲烷电解质溶液中进行,外加电位控制在1.2 V以上.聚合产物中聚吡咯与聚己内酰胺链段的组成可通过调节合成电位加以控制.共聚物的形貌、结构与性质采用扫描电子显微镜、热重分析、红外光谱等手...     

基于导电聚吡咯生物电化学传感器的研究进展

导电聚合物具有良好的导电性能,可以作为分子导线使电子在生物活性物质与电极间直接传递,是构建生物传感器的一种新型材料.聚吡咯(PPy)具有导电性、生物相容性、易固定等特点,在传感器中用于固定生物活性物质有着良好的应用前景.该文简要介绍了导电聚吡咯的合成方法及掺杂机理,重点评述了聚吡咯用于固定生物活性物质构建生物传感器的多...     

多棱微米结构聚吡咯(PPy)的可控合成

首次通过化学氧化法将α-环糊精分子/吡咯单体包结物聚合制备得到了一系列具有多棱状微纳米结构形貌的聚吡咯材料。扫描电镜(SEM)和透射电镜(TEM)结果显示合成的多棱状聚吡咯的微观形貌为各截面边长从2.0μm到5.0μm不等,棱边长约20μm的空心棱柱状结构。合成的聚吡咯的分子结构以红外谱图(FT-IR)进行表征,证实了得到的聚吡咯分子结构中环糊精的存在。最后讨论了多棱状聚吡咯的形成机理。该方法为合成具有特殊形貌的微纳米结构导电高分子材料提供了一种新途径。     

石墨烯量子点增强聚吡咯超级电容器电极的电化学性质(英文)

通过将吡咯单体在低温下与石墨烯量子点进行原位聚合,获得一种全新的聚吡咯/石墨烯量子点(PPY/GQD)复合材料.实验中采用了扫描电子显微镜(SEM)、原子力显微镜(AFM)、X射线衍射(XRD)、红外光谱(FT-IR)和热重分析(TGA)对复合物的表面形貌、结构进行表征.结果表明,吡咯单体以石墨烯量子点为软模板,以化学键的方式在石墨烯量子点的表面聚合生长成片状聚吡咯.通过机械冷压法将粉末状PPY/GQD复合物压成圆片电极.电极的电化学测试结果表明,PPY和GQD质量比为50:1所制得的复合物的电容量为485 F.g-1,同时在2000次循环之后电容量只降低了大约2%.通过与同比例的PG(聚吡咯/石墨烯复合材料)以及纯PPY对比,发现聚吡咯/石墨烯量子点的高比容量及优异的循环稳定性将会使其在电化学超级电容器领域中具有潜在的应用价值.     

超临界二氧化碳流体环境中导电聚吡咯复合材料的制备

以聚苯乙烯(PS)和锌盐中和的磺化聚苯乙烯(Zn-SPS)膜为基体, 在超临界二氧化碳(SC-CO₂)环境中用化学氧化法原位制备了聚吡咯(PPy)导电复合材料. 由于SC-CO₂对聚合物基体的强溶胀作用, 吡咯分子高效地扩散到基体内部进行聚合而形成导电通路, 得到比传统的水溶液法更高的电导率. 聚合物基体的性质对复合材料的导电性和形貌产生重要影响. 在相同条件下, Zn-SPS/PPy的电导率比PS/PPy高3~4个数量级, 而它们的体积逾渗阈值分别为2.7%和6.2%, 远远低于理论预测值(16%).     

预拉伸处理对聚吡咯弹性长丝导电及传感性能的影响

为探究预拉伸处理对聚吡咯弹性导电长丝导电及传感性能的影响，通过在吡咯聚合时对弹性长丝进行不同程度的预拉伸处理，得到具有不同增重率的聚吡咯涂层，通过扫描电镜观察其微观形貌，并进行电学及传感性能的测试分析。研究结果表明电阻会随着预伸长率增加(>70%)而降低，在预伸长率为10%时聚吡咯层较为光滑，但具有最好的应变传感性能：在0～2 cN范围内灵敏度高，可达7.68/N,超过2 cN后灵敏度降低并稳定在1/N左右。稳定性、重复性实验及手指弯曲测试都表明，预拉伸10%处理的导电长丝具有良好的灵敏度和传感稳定性，电阻变化率分别为24.71%和11.01%,因此，具有此结构的聚吡咯复合弹性丝有望应用于人体运动和生理信号的检测中。预伸长率较高的弹性导电纱表面具有褶皱结构，随着拉伸具有稳定的电阻值，可用于导线和电极中。     

氯霉素分子印迹复合膜的制备及电化学

采用电化学聚合法合成了对氯霉素（CAP）有快速响应和高灵敏度的聚苯胺/聚吡咯分子印迹复合膜修饰电极。 通过微分脉冲伏安法、扫描电子显微镜对制备的分子印迹复合膜的电化学性质及表面形貌进行了表征。 结果表明,以铁氰化钾为电化学探针,该膜对CAP的测定电化学信号响应快速、灵敏度高、选择性和膜再生性能良好。 对CAP检测的线性范围为5.00×10-8～1.05×10-6 mol/L,检测限为2.09×10-9 mol/L。     

有机溶剂热生长技术制备硫族化合物及其光学特性的研究

以有机溶剂热生长技术(solvothermaltechnique)制备了半导体硫族化合物(CdS、ZnS、MoS₂)等纳米颗粒,采用XRD、TEM等技术对其结构进行表征.以ITO导电玻璃以及导电聚合物(PANI、PPY)膜为基底,将纳米颗粒涂布其上并以PL法研究其光学特性,实验结果表明:经修饰后,材料的荧光发射位置发生显著的变化.     

Electrochemical Study of a Polypyrrole Film/Decanethiol Self-Assembled Monolayer on a Gold Electrode

Cyclic voltammetry and chronoamperometry were used to study the deposition of polypyrrole on a decanethiol self-assembled monolayer modified gold electrode (PPY/SAM/Au). The voltammetric behavior of the PPY/SAM film was investigated in the presence of several different electrolytes. It is found that the SAM shows great influence on the nucleation and growth of the PPY film. The reaction of the SAM and the anions causes the different voltammetric behavior of the polymerization of pyrrole on the modified electrode. Chronoamperometry shows the nucleation and growth of the PPY is initially inhibited but followed by a rapid increase. The SAM also influences electrochemical behavior of PPY film. Experiments show that the SAM can greatly depress the diffusion of anions in the PPY film, and minimize the background capacitance current.     

A study of ion exchange selectivity coefficient by cyclic voltammetric measurement

An equation to express ion exchange selectivity coefficient was derived and used for calculating that of PPY film with the results obtained by cyclic voltammetric measurement. PPY film was synthesized by electrochemical method in aqueous solution using K₄Fe(CN)₆ as supporting electrolyte, and the anions were doped into the film. Ion exchange behaviour of doped Fe (CN)₆^3-/4- in the PPY film with Cl^?, NO₃^? or F^? ions in solution has been studied, and the corresponding ion exchange selectivity coefficients were determined.     

聚吡咯/硝酸活化碳气凝胶纳米复合材料的制备表征及其在超级电容器中的应用

通过化学氧化聚合法制备出不同比例的聚吡咯(PPY)/硝酸活化碳气凝胶(HCA)复合材料。采用傅里叶变换红外光谱(FT-IR)和扫描电子显微镜(SEM)表征材料的成分和形貌,结果表明,通过硝酸活化及与聚吡咯的复合,并未破坏碳气凝胶的多孔形貌,硝酸活化碳气凝胶及聚吡咯/硝酸活化碳气凝胶都仍然保持着原碳气凝胶的三维纳米多孔结构。采用对照实验的方法,设计并合成五组不同配比的复合材料,聚吡咯与硝酸活化碳气凝胶的质量比例分别为3:1、2:1、1:1、1:2、1:3,通过循环伏安法,恒流充放电,交流阻抗及循环性测试等考察材料的电化学性能。结果证明,当聚吡咯与硝酸活化碳气凝胶比例为1:1时,复合材料显示出最优电化学性能:比电容高达336 F·g^-1,是纯碳气凝胶(103 F·g^-1)的三倍有余,除此还显示出卓越的导电性与循环稳定性, 2000次循环后仍保持初始电容的91%,具备优良的超级电容器电极材料性能。因此聚吡咯/硝酸活化碳气凝胶复合纳米材料是超级电容器的理想电极材料。     

Fabrication of Conductive Polypyrrole Doped Chitosan Thin Film for Sensitive Detection of Sulfite in Real Food and Biological Samples

In this study, we reported electrochemical synthesis of conductive polypyrrole‐chitosan (PPY‐CHI) thin film for sensitive detection of sulfite in real samples. The synthesized PPY‐CHI film was characterized in terms of surface morphology, optical property, binding energy, conductivity and electrochemical properties. The synthesized copolymeric PPY‐CHI film displayed good electrocatalytic behaviour towards oxidation of sulfite. The synthesized PPY‐CHI film was used for sulfite detection using differential pulse voltammetric technique with detection limit, sensitivity and linearity of 0.21 μM (S/N=3), 15.28 μA μM cm^?2 and 50–1100 μM respectively. In addition, the current responses of PPY‐CHI film towards sulfite were repeatable, reproducible response and unaffected by selected electroactive interferents. Finally, the synthesized PPY‐CHI was successfully and satisfactorily applied for determination of sulfite in real food and biological samples. The results obtained from this study highly placed PPY‐CHI film as a promising sensor for sensitive and accurate detection of sulfite in food and biological samples for human health protection.     

熔体插层制备尼龙6/蒙脱土纳米复合材料的性能表征

通过熔体插层成功地制备了尼龙６／蒙脱土纳米复合材料，测试了力学性能、耐热性能和耐溶剂性．通过ＴＥＭ、ＷＡＸＤ、ＤＳＣ等手段，研究了结构与结晶行为，并与插层聚合的尼龙６／蒙脱土纳米复合材料进行了对比．实验表明通过熔体插层可使尼龙６基体插层于蒙脱土中，所得到的复合物的性能较尼龙６有很大提高，且与插层聚合的尼龙６／蒙脱土纳米复合材料的性能相当．     

Thin films of nylon 13,13 casted on water: Morphology and properties

Substrate-free thin film of Nylon 13,13 has been prepared continuously by casting the polymer on a water surface from m-cresol solution. The uniform thickness of film is ca. 500 A, as measured with a Profilometer. Film morphology and properties have been characterized by transmission electronic microscopy (TEM), x-ray photoelectron spectroscopy, wide-angle x-ray scattering, differential scanning calorimetry and by contact angle measurements. Results show that there is no preferential accumulation of the amide group toward the water surface. A spherulite structure exists in this film with a crystallinity of 26% by DSC. Fibers were drawn from the films which had a tensile modulus of 5 GPa, stiffer than reported for this nylon as prepared by other means. Other members of the nylon series, such as Nylon 6, Nylon 12, have also been prepared in films by the same casting method under modified conditions. © 1995 John Wiley & Sons, Inc.     

Controlled electrochemical synthesis of polypyrrole nanoparticle thin film and its redox transition to a highly conductive and stable polypyrrole variant

We demonstrated here a unique method to produce a highly stable and conductive polypyrrole (PPY) nanoparticle film. The procedure entails controlling the redox switching and the electrochemical synthesis of PPY. PPY was synthesized at a very low forming potential or reaction rate in nonaqueous CH2Cl2 solvent to promote the PPY nanoparticle formation. Then its property was further optimized by first electrochemically reducing it at a hydrogen evolution potential in a neutral 0.1 M NaClO4, then in a slightly acidic 0.05 M asparagine electrolyte. The PPY nanoparticle thin film was characterized by AFM, UV-vis and EQCM. The procedures described here have proven to be reproducible. The data provided by the EQCM shows a reversible doping and undoping mechanism of asparagine indicating the presence of a highly conductive PPY variant. Both UV-vis and electrochemical characterization suggest that the PPY film made using our approach has excellent redox activity as well as high stability when characterized in asparagine solution. The reversible doping and undoping of asparagine during redox switching shows great potential of these PPY nanoparticle films as biological membranes for a broad range of biological applications.     

Porous and electrically conductive polypyrrole-poly(vinyl alcohol) composite and its applications as a biomaterial

Bulk modification of polypyrrole (PPY) with poly(vinyl alcohol) (PVA) was carried out by the electropolymerization of pyrrole in the presence of PVA in the reaction solution, with tetraethylammonium perchlorate (TEAP) as the electrolyte. The surface morphology of the as-synthesized PPY-TEAP-PVA film was investigated using scanning electron microscopy, and the film was further characterized using X-ray photoelectron spectroscopy, electrical conductivity, the water contact angle, and BET surface area measurements. The PPY-TEAP-PVA composite is electrically conductive, hydrophilic, and microporous with a high surface area. Its potential as a biomaterial was investigated with respect to its blood compatibility and function as a substrate for biosensor fabrication and cell culture. The presence of PVA in the film attenuates blood protein adsorption, and the porous nature of the PPY-TEAP-PVA film results in a 10-fold increase in the amount of glucose oxidase covalently immobilized on the film over that on a nonporous PPY film. PC12 cell attachment and growth on the PPY-TEAP-PVA film was also shown to be enhanced compared with that on tissue culture polystyrene. The attached cells proliferated and formed a monolayer on the film surface after 48 h of seeding.