复合乳化剂微乳液法制备聚苯胺及其电化学性能

采用复合乳化剂微乳液法合成了导电聚苯胺(PANI),以碳纸负载PANI为工作电极,考察了十二烷基苯磺酸钠(SDBS)和聚乙二醇辛基苯基醚(TX-100)的配比及其复合乳化剂(E)和氧化剂(APS)用量对复合乳化剂微乳液法合成PANI电化学性能(循环伏安、塔费尔)的影响;通过对产物电导率和产率的对比分析,印证了PANI电化学性能表征结果的有效性。结果表明：当SDBS与TX-100的质量比为1/2,E与苯胺(An)单体的质量比为5/3,APS与An的摩尔比为1.2时,PANI的各项性能指标达到最好,且产物的循环伏安峰电流、腐蚀电位和电导率均高于单组分乳化剂SDBS或TX-100微乳液法制备的PANI。     

碳纸负载电极在乳液法合成聚苯胺电化学性能分析中的应用

首次采用碳纸负载聚苯胺(PAn)为工作电极,探讨了反应时间对乳液法合成PAn电化学性能(循环伏安、交流阻抗及塔菲尔曲线)的影响,并通过对产物电导率、产率及特性粘度的对比分析,印证了产物电化学性能的表征结果.实验结果表明,循环伏安曲线均能有效表征出PAn的三对氧化还原特征峰,交流阻抗曲线均出现一个几乎完整的半圆;且产物的循环伏安、交流阻抗、塔菲尔、产率及电导率随反应时间的变化趋势一致,在反应5h时,PAn的各项性能指标较好.结果显示,利用碳纸作为负载电极,可以对乳液法合成PAn的电化学性能实施有效的实时表征.     

碳纳米管/聚苯胺/石墨烯复合纳米碳纸及其电化学电容行为

通过真空抽滤的方法制备碳纳米管纸,并对其进行循环伏安电化学氧化处理.以该电化学氧化处理的碳纳米管(CV-CNT)纸为基体,采用电化学聚合沉积聚苯胺(PANI),随后吸附石墨烯(GR),制备具有三明治夹心结构的碳纳米管/聚苯胺/石墨烯(CV-CNT/PANI/GR)复合纳米碳纸.该结构外层为GR,内层由PANI包裹的CNT形成网络骨架,充分发挥三者各自优势构建柔性电极材料.用场发射扫描电镜(FE-SEM)、透射电子显微镜(TEM)、拉曼光谱对其形貌与结构进行表征,并测试其电化学性能.研究发现:PANI呈纳米晶须状,并均匀包裹在CV-CNT表面;该复合碳纸具有良好的电容特性、大电流充放电特性以及良好的循环稳定性能.电流密度为0.5A·g-1时,比电容可达415F·g-1;20A·g-1时仍能保持106F·g-1的比电容.由于GR的保护作用,1000次循环之后较CV-CNT/PANI保持更高的有效比电容.该CV-CNT/PANI/GR复合碳纸展现出在高性能超级电容器柔性电极材料的潜在应用价值.     

电致变色型导电聚苯胺固态超级电容器的构建与性能研究

以苯胺硫酸溶液为沉积液,导电玻璃(FTO)为基底材料,在-0.2~1.2 V范围内先电位扫描一圈生成聚苯胺(PANI)晶种,然后在-0.2~0.8 V范围内用循环伏安法电沉积导电PANI材料.所得样品用红外光谱和扫描电子显微镜进行结构表征;以最佳循环伏安电沉积条件制备的PANI/FTO为活性电极,以H_2SO_4/聚乙烯醇(H2SO4/PVA)为凝胶电解质组装了电化学电容器,通过循环伏安、恒电流充放电和电化学阻抗法研究了组装电化学电容器的电化学性能.研究结果表明,以H_2SO_4/PVA凝胶电解质,沉积于导电玻璃表面的PANI活性电极材料的面比电容可达172.7 m F/cm~2,并且在2000次充放电以后,比电容值仍可保留初始值的92.8%.以分区沉积有PANI的导电玻璃可组装制备通过变色显示充放电过程的电化学电容器,在充电时,其颜色逐渐从浅绿色向深绿色转变,放电时,颜色逐渐从深绿色向浅绿色转变.     

基底材料对脉冲电流法制备的聚苯胺膜性能的影响

本文采用脉冲电流法(PGM)在不同的基底材料表面沉积PANI, 通过平均电位\|时间曲线及扫描电子显微镜(SEM)等方法研究了基底材料对PGM法制备PANI的影响; 并采用循环伏安(CV)和电化学阻抗谱(EIS)研究了不同电极材料表面PANI的电化学性能.     

有机化学接枝-电化学沉积聚合制备CNTs/PANI纳米复合材料

通过有机化学合成法先在碳纳米管表面接枝上苯胺单体,然后在不锈钢电极表面在硫酸溶液中采用循环伏安法电化学沉积聚合制得碳纳米管/聚苯胺(CNTs/PANI)纳米复合材料.扫描电子显微镜和傅立叶变换红外光谱表征所得材料的微观结构和基团,循环伏安和恒流充放电测试用于考察所得CNTs/PANI纳米复合材料的电化学性能.所得结果与...     

重金属Cr(Ⅵ)离子与血清白蛋白的结合反应机制研究

电聚法制备聚苯胺修饰电极(PANI/GCE),并通过循环伏安法和电化学交流阻抗法表征修饰电极;利用修饰电极研究Cr(Ⅵ)离子与血清白蛋白(Bovine serum albumin,BSA)的结合反应机制并构建理论模型方程.结果表明,成功制备PANI/GCE修饰电极,修饰电极测定Cr(Ⅵ)-BSA分子相互作用结果显示良好的线性响应关系,利用建立的理论模型方程计算Cr(Ⅵ)与蛋白质的结合参数(β=2.07×104 L.mol-1,n=1.03),说明Cr(Ⅵ)与血清白蛋白存在明显的相互作用.     

对甲苯磺酸掺杂聚(苯胺/中性红)复合物的乳液聚合法制备及电化学电容行为

以对甲基苯磺酸(TSA)为掺杂剂和乳化剂, 过硫酸铵(APS)为引发剂, 采用现场乳液聚合方法合成了对甲基苯磺酸掺杂聚(苯胺/中性红)复合材料(TSA-PANI/PNR). 利用X射线衍射(XRD)和电子扫描显微镜(SEM)对共聚物复合材料的结构和形貌进行了分析和表征. 以此复合材料为活性物质制备电极, 以l mol/L H₂SO₄水溶液为电解液组装超级电容器, 通过恒电流充放电、循环伏安和交流阻抗等技术研究了其电化学性能. 研究结果表明, TSA-PANI/PNR电极具有比TSA/PANI更优良的电化学性能. 扫描速度为1 mV/s的循环伏安曲线计算结果表明, 其单电极比电容可达到1350 F/g, 而TSA/PANI在相同的扫速下其单电极比电容仅为1038 F/g; 在5 mA放电电流下, TSA-PANI/PNR组装的电容器首次充放电比电容可达到348 F/g, 1000次循环后容量保持87%.     

聚苯胺/醋酸纤维素复合膜的制备及其超级电容特性

通过电化学原位聚合法制备多孔网状结构的聚苯胺(PANI)/醋酸纤维素(CA)复合膜电极,该复合膜的内层(与电极接触的一面)呈墨绿色,外层呈白色。采用原子力显微镜(AFM)、扫描电镜(SEM)、红外光谱(FTIR)对其形貌和化学组成进行表征。通过循环伏安、恒电流充放电和电化学阻抗研究了复合膜电极的超级电容特性。结果表明,多孔网状结构的PANI/CA复合材料具有良好的电容性能,其比电容可达到410F/g,并且该超级电容器具有较小的内阻和较好的循环稳定性,300次循环后,容量仍维持在342F/g,比电容的保持率为83.4%。     

聚苯胺/铁氰化镍纳米复合颗粒的制备及电控分离Cd的EQCM研究

本文采用循环伏安一步共聚法在碳纳米管(CNTs)修饰的铂基底上制备了聚苯胺/铁氰化镍(PANI/NiHCF)纳米复合颗粒.通过电化学石英晶体微天平(EQCM)技术检测了复合颗粒制备过程的质量改变量,并用扫描电镜(SEM)、透射电镜(TEM)和傅立叶变换红外光谱(FTIR)分析了复合颗粒的微观形貌和组成.结合循环伏安法和EDS能谱考察了该复合电极对Cd2+离子的交换性能.结果表明,三维多孔的CNTs不仅可促进复合颗粒的沉积,而且其独特的网络结构和表面特性对形成PANI/NiHCF复合颗粒的立方体构型起至关重要的作用.该复合电极在0.1mol·L-1Cd(NO3)2溶液中显示了良好的电活性,对Cd2+离子有可逆的离子交换性能,通过电控离子交换法可实现废水中Cd2+离子的高效分离.     

Characterization and Analysis of the Electrochemical Proper-ties of the Polyaniline Synthesized by Emulsion Polymerization in Constant Magnetic Field(0.4 T)

A new, convenient and economical method was established firstly, which took loaded polyaniline (PANI) carbon paper as the working electrode to real‐time characterize and analyze the electrochemical properties of the PANI synthesized by emulsion polymerization in constant magnetic field (MF, 0.4 T). The characterization results of the electrochemical properties of the PANI had been proved by contrast analysis of the thermal stability of conductivity, FT‐IR, XRD and TGA of the PANI. The experimental results of cyclic voltammogram, AC impedance, Tafel curve and electrochemical stability showed that the PANI synthesized in the presence of the MF had larger redox current, smaller charge resistance, higher corrosion potential and better electrochemical stability. The PANI thermal stability of conductivity had been measured in the temperature range from 20 to 140°C, and the results showed that the PANI synthesized in the presence of the MF had better thermal stability of conductivity. The results of FT‐IR, XRD and TGA indicated that the characteristic peaks of FT‐IR spectra of the PANI synthesized in the presence of the MF shifted to the lower wavenumbers, and its crystallinity and thermal stability were also improved.     

Synthesis and Electrochemical Investigation of Tetra Amino Cobalt (II) Phthalocyanine Functionalized Polyaniline Nanofiber for the Selective Detection of Dopamine

A new electrochemical sensing platform based on tetra‐amino cobalt (II) phthalocyanine (TACoPc) ingrained polyaniline (PANI) nanofiber composite (TACoPc/PANI hybrid) has been developed for the selective detection of dopamine. The uniform fibrous network of PANI/TACoPc hybrid was synthesized by a one‐step oxidative polymerization at room temperature. The synthesized nanocomposite was characterized using field emission scanning electron microscopy (FESEM), energy dispersive X‐ray (EDX), fourier transmission infrared spectroscopy (FTIR), raman spectroscopy, X‐ray diffraction (XRD) and UV‐Visible spectroscopy. The electrochemical behavior of the TACoPc/PANI hybrid material was studied by using different electrochemical techniques, including cyclic voltammetry (CV) and chronoamperometry in 0.1 M phosphate buffer solution (PBS) of pH 7 by modifying the glassy carbon electrode (GCE). Due to the synergistic impact of PANI and TACoPc, the suggested altered electrode provided superior catalytic performance for dopamine even in the presence of ascorbic acid. It exhibited a linear reaction with a high sensitivity of 1.212 μA/μM cm^?2 and a low detection limit of 0.064 μM over the 20–200 μM concentration range in 0.1 M PBS. One of the commonly faced problems of interference of ascorbic acid and uric acid in the electrochemical detection of dopamine was completely excluded from this modified electrode which led to an increase in the catalytic activity of the material for the detection of dopamine in the presence of ascorbic acid.     

Synthesis,characterization, thermal,electrical and magnetic properties of polyaniline composites with rare earth gadolinium coordination complex

Novel polyaniline/gadolinium (PANI/Gd) composites were successfully synthesized by “in‐situ” polymerization at the presence of rare earth Gd coordination complex and D‐tartaric acid (an a dopant). It is rarely to find the studies on related field to add rare earth Gd coordination complex as fillers. Fourier transform infrared (FTIR) spectra, X‐ray diffraction (XRD) and scanning electron microscope (SEM) were used to examine the structure and surface appearance characterization of materials. The thermal stability performance of composites was investigated by thermogravimetry and derivative thermogravimetry (TG‐DTG). Electrochemical performance was measured by cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS) and galvanostatic charge–discharge test. The magnetic property was investigated by physical property measurement system (PPMS). The structure and surface appearance characterization and the magnetic properties jointly demonstrate the polymerization of rare earth Gd coordination complex and PANI–D‐tartrate (DTA) not only simple physical mixing but also chemical mixing. TG‐DTG analysis suggests that thermal stability of PANI/Gd composites is higher than that of PANI–DTA. Electrochemical performance tests and SEM indicate that the composite (PANI/Gd = 3.3:1,mass ratio) has the most regular morphology and best specific capacitance. The magnetization of the composite (PANI/Gd = 3.3:1,mass ratio)is evidently smaller compared with PANI–DTA and rare earth Gd coordination complex. Copyright © 2016 John Wiley & Sons, Ltd.     

超级电容器用含氮碳与含氮碳/炭气凝胶复合电极材料的制备和性能研究

采用原位聚合法合成聚苯胺(PAIN)及聚苯胺/炭气凝胶(PAIN/CA)复合材料,经过高温裂解制备含氮碳(NC)及含氮碳/炭气凝胶复合材料(NC/CA),再以KOH为活化剂对其进行活化,制备活化含氮碳(ANC)及活化含氮碳/炭气凝胶复合材料(ANC/CA)。采用扫描电镜、循环伏安、恒流充放电以及电化学阻抗等方法进行性能测试,结果表明,由于KOH的活化作用,含氮碳材料的粒径明显变小,其比电容值为138 F/g,高于未活化含氮碳材料(98 F/g),ANC/AC3复合材料电极的比电容值比ACA电极(88 F/g)高,达到127 F/g。     

Coating of multiwalled carbon nanotubes with polymer nanospheres through microemulsion polymerization

We report a simple and noncovalent method for coating multiwalled carbon nanotubes (MWCNTs) with polyaniline (PANI) nanospheres using a microemulsion polymerization method. In this method, aniline polymerization is performed with MWCNTs in the presence of sodium dodecyl sulfate (SDS), which serves as both a surfactant and a dopant. Morphological, structural, thermal, and electrical properties of MWCNT–PANI nanocomposites were analyzed. The TEM results of the nanocomposites prepared with surfactant reveal that 30–50-nm-diameter PANI nanospheres were coated on the surface of the MWCNTs. Composites prepared without surfactant were found to be in core–sheath-type cable structures. The conductivities of the nanocomposites synthesized through microemulsion polymerization were found to be one order of magnitude higher than both the conductivities of pure PANI and the composites prepared via in situ chemical polymerization without an assisting SDS surfactant. The mechanism for the formation of nanostructured composites is presented.     

Thermal stability of several polyaniline/rare earth oxide composites

Polyaniline/rare earth oxide composites (PANI/La₂O₃ and PANI/Sm₂O₃) were synthesized by in situ polymerization at the presence of sulfosalicylic acid (as dopant). The composites obtained were characterized by Fourier transform infrared spectra (FTIR), X-ray diffraction (XRD) and scanning electron microscopy (SEM). The thermal stability of the composites was investigated by thermogravimetry (TG) and derivative thermogravimetry (DTG). The electrochemical performance of the composites was investigated by cyclic voltammetry (CV) and electrochemical impedance spectroscopy (EIS). The results of FTIR, XRD, SEM, CV, and EIS show that the structure of composite has changed greatly when rare earth oxide content is >0.7 g (PANI/La₂O₃[w/w(92.7/7.3)] and PANI/Sm₂O₃[w/w(96.2/3.8)]) and the PANI in the composite has transformed into pernigraniline base (non-conducting state) from emeraldine base (conducting state). TG-DTG analysis indicates that the thermal stability of composite was higher than pure PANI, which is attributed to the interaction between PANI and rare earth oxide.     

APS/NaClO 复合氧化剂对乳液法合成聚苯胺的微观形貌及其电化学性能的影响

采用乳液法, 以过硫酸铵(APS)和次氯酸钠(NaClO)为复合氧化剂合成导电聚苯胺(PANI). 考察了NaClO 的加入与否对PANI 微观形貌与电化学性能(循环伏安和电导率)的影响, 以及APS、乳化剂十二烷基苯磺酸钠(SDBS)和NaClO的用量对PANI 电化学性能的影响. 结果表明: NaClO 的加入对PANI 的微观取向结构具有重要的影响. 与采用单一APS 合成的PANI 相比, 复合氧化剂合成的PANI 具有较高的循环伏安峰电流以及更加优异的电导率(约为前者的2.6倍). 当苯胺(An)与APS 的物质的量比(n_An:n_APS )为8:7, An 与SDBS 的物质的量比(n_An:n_SDBS )为10:4, NaClO 用量为5%(质量分数)时, PANI 的各项性能指标达到最好; 紫外可见光谱和红外光谱的表征结果表明, 采用复合氧化剂并未对PANI 的分子结构产生明显的影响.     

Nd2Fe14B/PANI磁粉的合成、表征及氧传递作用

经球磨和原位聚合法合成了Nd₂Fe₁₄B/PANI磁粉,采用X射线衍射（XRD）、傅里叶变换红外（FTIR）光谱、扫描电镜（SEM）、振动样品磁强计（VSM）对样品进行了表征,用电化学三电极体系和锌空电池考察了Nd₂Fe₁₄B/PANI材料在氧传递中的作用.结果表明:Nd₂Fe₁₄B/PANI是一维片状纳米材料,电导率0.54 S·cm^-1,内禀矫顽力和剩余磁化强度为149.57 kA·m^-1、20.27A·m²·kg^-1;Nd₂Fe₁₄B/PANI负载密度为0.40 mg·cm^-2时,磁性电极的双电层电容增大,传荷电阻减小,磁性锌空电池的极化电流较大;负载密度为3.60 mg·cm^-2时,磁性电极的双电层电容减小,传荷电阻增大,磁性锌空电池的极化电流较小.Nd₂Fe₁₄B/PANI负载密度小于0.89 mg·cm^-2时,微磁场促进氧的传质,提高锌空电池的放电性能;高于3.56 mg·cm^-2时,微磁场抑制氧的传质,降低锌空电池的放电性能;Nd₂Fe₁₄B/PANI中的PANI提高锌空电池的放电性能.