聚苯胺/贵金属复合纳米材料的可控合成及催化应用

导电高分子/贵金属复合纳米材料因其在催化、传感、表面增强拉曼、光热治疗等诸多领域的应用前景而受到广泛关注.本文主要介绍我们课题组近年来利用可控合成策略制备的负载型和包埋型两种结构聚苯胺/贵金属复合纳米材料,以及利用复合纳米材料的结构和功能特性,对其在多相催化领域的应用、结构与催化性能之间构效关系的探索.     

Investigation of the origin of the glucose response in a glucose oxidase|polyaniline system

The origin of the signal seen in response to glucose in a polyaniline|glucose oxidase system is explored by immittance spectroscopy, by comparing data from an equivalent circuit model and the parameters obtained from a solution of the faradaic branch of the frequency dispersion for a coupled chemical—electrochemical reaction mechanism. It was shown that an RC subcircuit in the equivalent circuit model was sensitive to peroxide concentration, and the interaction of peroxide with polyaniline at potentials where it either oxidised or reduced the polyaniline was discussed. This information was used to compare the data obtained in a bulk and entrapped glucose oxidaselglucose system, and it was seen that the origin of the response could not be fully attributed to peroxide interaction in the latter case. Under anaerobic conditions with entrapped enzyme, it was proposed that a complex between the gluconolactone product of the enzyme reaction and the polymer leads to a more conducting polymer, with inherent charge compensation, and this results in the observed enhanced current signal.     

聚苯胺薄膜修饰电极对抗坏血酸的电催化氧化

本文表明聚苯胺(PAn)薄膜修饰电极对水溶液中的抗坏血酸(AH_2)在较宽的pH范围和较宽的浓度范围内均有良好的电催化氧化作用, 为EC平行催化过程。利用旋转圆盘电极(RDE)进行了催化过程动力学分析, 求出了催化反应动力学参数。在抗坏血酸浓度10~(-2)～10~(-6) mol·L~(-1)范围内, 催化峰电流与AH_2浓度均成良好的线性关系, 且PAn薄膜修饰电极具有很好的稳定性, 有应用分析抗坏血酸的意义。     

聚苯胺黄嘌呤氧化酶电极的生物电化学活性

用电化学方法将黄嘌呤氧化酶固定在聚苯胺中以制成聚苯胺黄嘌呤氧化酶电极。该电极呈现典型的酶催化反应动力学特性。且具有快速的生物电化学响应。固定化黄嘌呤氧化酶的表观米氏常数为21×10^-^6mol.dm^-^3, 最适pH为8.4,酶催化反应的活化能为85.1kJ.mol^-^1。酶电极具有较高的稳定性。使用聚苯胺黄嘌呤氧化酶电极能可靠地测定较低的底物浓度, 如2×10^-^6mol.dm^-^3黄嘌呤。     

The carbon nanotubes-polyaniline composites and their effect on catalytic properties of deposited catalysts

Composites of functionalized single-wall carbon nanotubes and polyaniline are deposited onto electrodes by in situ electrochemical polymerization. Their electrochemical behavior and differential capacitance are studied by cyclic voltammetry, electrochemical impedance spectroscopy, and chronovoltamperometry. The differential capacitance of the composite electrode exceeds that of pure polyaniline film deposited onto electrode, which can be explained by the nanotubes’ loosening effect on the polyaniline structure. The composite-electrode capacitance is as large as 1000 F g⁻¹ or higher. Thus obtained composite films were used as a support for deposited platinum-ruthenium catalyst. The Pt-Ru structure and catalytic properties in the methanol oxidation reaction are studied. It is shown that the specific current of methanol oxidation at Pt-Ru is larger by a factor of 7–15 than those measured when pure polyaniline, pure carbon nanotubes, or standard Vulcan XC-72 carbon black are used as supports. It is found that the catalytic activity is the same for all studied supports, provided the current is reduced to the unit of Pt-Ru true surface area. Thus, the observed large catalytic effect is associated with the structure and high dispersivity of the electrodeposited metals incorporated to the single-wall carbon nanotubes-polyaniline composite.     

胺氧化酶修饰聚苯胺电极的生物电化学响应特性

采用聚合物掺杂方法将胺氧化酶固定在聚苯胺膜中制成聚苯胺/胺氧化酶电极。该电极对组胺有快速的生物电化学响应,电极反应受酶动力学控制。固定化胺氧化酶的表观米氏常数为0.21mmol/L.最适pH值为7.3～7.6,酶催化反应的表观活化能为76kJ·mol^-1.酶电极具有较好的稳定性,可用来测定组胺。此外,酶电极的电化学性质通过循环伏安和交流阻抗进行了表征。     

用聚苯胺膜从牛乳中直接分离黄嘌呤氧化酶

酶电极;新鲜牛乳;固定分离;用聚苯胺膜从牛乳中直接分离黄嘌呤氧化酶     

Electrochemical properties of benzoquinone and ferrocene monocarboxylic acid at a polyaniline coated platinum electrode for glucose sensing

The electrochemical properties of benzoquinone and ferrocene monocarboxylic acid, which can be used as mediators for enzymatic reactions were studied at a polyaniline coated platinum electrode. Benzoquinone and ferrocene monocarboxylic acid were used in the catalytic cycle of a glucose oxidase-glucose reaction.     

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.     

Voltammetric Determination of Metol on a Gold Nanoparticle Modified Carbon Molecular Wire Electrode

A carbon molecular wire electrode was fabricated using diphenylacetylene as the modifier and gold nanoparticles were electrodeposited on the surface. The morphology and electrochemical properties of this modified electrode were investigated by scanning electron microscopy and electrochemical impedance spectroscopy. Two well-defined peaks for metol appeared using this gold nanoparticle-modified carbon molecular wire electrode by cyclic voltammetry with a high current response. These results demonstrate a synergistic effect between the gold nanoparticles and the carbon molecular wire electrode resulting in a rapid electrochemical reaction. The electrochemical conditions for metol were optimized on the modified electrode and a detection limit of 0.64?µmol/L and a linear dynamic range between 2.0 to 800.0?µmol/L were obtained. This modified electrode provided good selectivity, high sensitivity, and acceptable reproducibility, demonstrating promise for the determination of metol in the water.     

Electrochemical behavior of polyaniline films in acetonitrile

The electro-oxidation and electroreduction behavior of polyaniline films in acetonitrile in the absence and presence of added acid or base were investigated using cyclic voltammetry. A general mechanism is proposed that enables the interpretation of the electroactivity loss and the catalytic and autocatalytic properties of the film. The electroactivity loss was found to be a reversible phenomenon which is accelerated in alkaline solutions through deprotonation. Electroactivity was recovered when the electroinactive films were reduced in an acidic solution. The films that lose their electroactivity on electro-oxidation were found to be conducting, and various cation radicals in the structure are believed to be responsible for this nonprotonic conductivity. The proton content of the polyaniline film was found to be crucial in determining its electrochemical and physical properties. Autocatalysis was detected when protons were produced electrolytically in situ during electropolymerization.     

有序介孔二氧化硅/聚苯胺复合物

本文综述了有序介孔二氧化硅/聚苯胺复合物从出现至今的10余年里的研究进展,介绍了复合物的合成方法,包括气相法、液相法和一步合成法,以及模板剂单体原位合成法等。引入苯胺单体后在孔道内聚合生成聚苯胺,即聚苯胺与有序介孔二氧化硅形成了复合物。该复合物的结构和形貌,以及孔道中聚苯胺的结构形态和电学性质,与本体聚苯胺相比具有显著的变化。这种以有序介孔二氧化硅为模板制备的聚苯胺的单分子导线,有潜力应用在新型的电子或光电子器件上。此外,该复合物因为其独特性质很可能在燃料电池的聚合物电解质膜、湿度传感器、电流变材料以及电化学电容器等方面得到应用。     

Morphological and electrochemical characterisation of graphite electrodes coated with SPANI and Ni-cyclam

The preparation of the composite graphite–sulphonated polyaniline (SPANI)–Ni-cyclam was investigated with the purpose of dispersing a catalyst in a conducting matrix that allows a better electronic transfer from the surface of the electrode towards the reaction site. The graphite is a material with a high porosity, big area and cheaper than other materials. The electrochemical and morphological characterisations show that the best conditions for obtaining SPANI over graphite were reached with an anodic limit of 1,000 mV in H₂SO₄. The deposit of the Ni-cyclam over graphite–SPANI in basic medium allows the formation of a spongy and open material, which permits better accessibility to the catalytic sites, showing good catalytic properties. These results illustrate that the importance relays on the morphology and dispersion of the catalyst and not on the amount of catalytic material present in the composite. The electrocatalytical properties Ni-cyclam over graphite–SPANI was studied for the methanol oxidation in basic medium.     

Preparation and Properties of Water-based Conducting Polyaniline

ＩｎｔｒｏｄｕｃｔｉｏｎＩｎｔｈｅｐａｓｔｄｅｃａｄｅ，ｃｏｎｊｕｇａｔｅｄｃｏｎｄｕｃｔｉｎｇｐｏｌｙｍｅｒｓｌｉｋｅｐｏｌｙａｎｉｌｉｎｅ，ｐｏｌｙｔｈｉｏｐｈｅｎｅａｎｄｐｏｌｙｐｙｒｏｌｅｈａｖｅｒｅｃｅｉｖｅｄｃｏｎｓｉｄｅｒａｂｌｅａｔｅ...     

An intimately bonded titanate nanotube–polyaniline–gold nanoparticle ternary composite as a scaffold for electrochemical enzyme biosensors

In this work, titanate nanotubes (TNTs), polyaniline (PANI) and gold nanoparticles (GNPs) were assembled to form a ternary composite, which was then applied on an electrode as a scaffold of an electrochemical enzyme biosensor. The scaffold was constructed by oxidatively polymerising aniline to produce an emeraldine salt of PANI on TNTs, followed by gold nanoparticle deposition. A novel aspect of this scaffold lies in the use of the emeraldine salt of PANI as a molecular wire between TNTs and GNPs. Using horseradish peroxidase (HRP) as a model enzyme, voltammetric results demonstrated that direct electron transfer of HRP was achieved at both TNT-PANI and TNT-PANI-GNP-modified electrodes. More significantly, the catalytic reduction current of H₂O₂ by HRP was ∼75% enhanced at the TNT-PANI-GNP-modified electrode, compared to that at the TNT-PANI-modified electrode. The heterogeneous electron transfer rate constant of HRP was found to be ∼3 times larger at the TNT-PANI-GNP-modified electrode than that at the TNT-PANI-modified electrode. Based on chronoamperometric detection of H₂O₂, a linear range from 1 to 1200 μM, a sensitivity of 22.7 μA mM⁻¹ and a detection limit of 0.13 μM were obtained at the TNT-PANI-GNP-modified electrode. The performance of the biosensor can be ascribed to the superior synergistic properties of the ternary composite.     

Morphology and Transport Properties of Hybrid Materials Based on Perfluorinated Membranes,Polyaniline, and Platinum

The transport properties and morphological characteristics of perfluorinated membranes after deposition of the layer of platinum dispersion on the surface are studied. The significant effect of preliminary modification of perfluorinated membraned with polyaniline on the diffusion permittivity of the composite and the morphology of the layer of platinum dispersion is determined. Testing the composites as proton conductors with a catalytic layer on the surface in an air–hydrogen fuel cell has shown the effect of the asymmetry of the electrochemical characteristics of the membrane–electrode assembly at various orientations of the layer of platinum dispersion towards hydrogen and air flows. A higher catalytic activity of the composite membranes in the oxygen reduction reaction is determined in the case platinum dispersion is deposited onto the membrane preliminarily modified with polyaniline.

     

Self-Standing Hydrogels Composed of Conducting Polymers for All-Hydrogel-State Supercapacitors

Conducting polymer hydrogels that are capable of contacting with electrolytes at the molecular level, represent an important electrode material. However, the fabrication of self-standing hydrogels merely composed of conducting polymers is still challenging owing to the absence of reliable methods. Herein, a novel and facile macromolecular interaction assisted route is reported to fabricate self-standing hydrogels consisting of polyaniline (PANi: providing high electrochemical activity) and poly(3,4-ethylenedioxythiophene) (PEDOT: enabling high electronic conductivity). Owing to the synergistic effect between them, the self-standing hydrogels possess good mechanical properties and electronic/electrochemical performances, making them an excellent potential electrode for solid-state energy storage devices. A proof-of-concept all-hydrogel-state supercapacitor is fabricated, which exhibits a high areal capacitance of 808.2 mF cm⁻², and a high energy density of 0.63 mWh cm⁻³ at high power density of 28.42 mW cm⁻³, superior to many recently reported conducting polymer hydrogels based supercapacitors. This study demonstrates a novel promising strategy to fabricate self-standing conducting polymer hydrogels.     

导电聚合物酶电极的研究概况

简述导电聚合物酶电极的制备及其在生物传感器领域的应用，主要包括导电聚合物固定酶的方法、反应机理、以及导电聚合物酶电极的最近进展等。     

聚苯胺膜修饰电极对儿茶酚及对苯二酚的催化氧化

研究了电化学条件下聚合生成的聚苯胺膜对儿茶酚及对苯二酚的催化氧化。实验分析了影响电催化的几个因素：聚合电位、膜厚、溶液酸度及底物浓度，同时分析和比较了聚苯胺膜对两种不同多酚类化合物的催化反应。提出电化学测试分析多酚类化合物的可能性。     

Polyaniline-coated carbon particles and their electrode behavior in organic carbonate electrolyte

In an attempt to increase the interface stability of carbon used in Li-ion batteries, a thin conducting polyaniline (PANI) film was fabricated on the surface of carbon by in situ chemical polymerization. The chemical and electrochemical properties of the composite material were characterized using X-ray diffraction, Raman spectroscopy, scanning electron microscope, cyclic voltammetry, and electrochemical impedance spectroscopy. It was confirmed that the PANI film has an obvious effect on the morphology and the electrochemical performance of carbon. The results could be attributed to the electronic and electrochemical activity of the conducting PANI films.