One-step electrochemical synthesis of Pt–CeO2 composite thin films on a glassy carbon electrode

A Pt–CeO₂ composite thin film was prepared on a glassy carbon electrode by one-step electrochemical deposition technique. The film was constructed of Pt particles well dispersed and embedded in a porous CeO₂ substrate. The prepared Pt–CeO₂/GC electrode showed a better catalytic performance toward methanol electrooxidation compared with the bulk Pt electrode.     

Effect of Various Deposition Techniques,Electrode Materials and Posttreatment with Tetrabutylammonium and Tetrabutylphosphonium Salts on the Electrochemical Behavior and Stability of Various Prussian Blue Modified Electrodes

The effect of various deposition techniques, electrode materials and posttreatment with tetrabutylammonium and tetrabutylphosphonium salts on the electrochemical behavior and stability of various Prussian blue (PB) modified electrodes, namely PB modified glassy carbon electrodes, silicate‐film supported PB modified glassy carbon electrodes, PB‐doped silicate glassy carbon electrodes, PB modified carbon ceramic electrodes using electrochemical deposition and PB modified carbon ceramic electrodes using chemical deposition is reported. Cyclic voltammetry and amperometric measurements of hydrogen peroxide were performed in a flow injection system while the carrier phosphate buffer (pH 7.0) with a flow rate of 0.8 mL min^?1 was propelled into the electrochemical flow through cell housing the PB modified working electrode as well as an Ag|AgCl|0.1 M KCl reference and a Pt auxiliary electrode. The results showed that the deposition procedure, electrode material and posttreatment with additional chemicals can significantly alter the stability and electrochemical behavior of the PB film. Among the studied PB modified electrodes, those based on carbon ceramic electrodes modified with a film of electropolymerized PB showed the best electrochemical stability.     

镧取代Dawson型磷钨杂多酸聚吡咯修饰电极的制备及其电化学性能

通过缺位填充法合成了分子式为α２－Ｋ７Ｐ２Ｗ１７Ｏ６１（Ｌａ· ＯＨ２）的镧（Ⅲ）取代十八钨磷酸盐。在玻碳电极（ＧＣ）上,用电化学方法将单取代Ｄａｗｓｏｎ型杂多酸盐α２－Ｋ７Ｐ２Ｗ１７Ｏ６１（Ｌａ·ＯＨ２）的阴离子（Ｐ２Ｗ１７Ｌａ）掺杂到聚吡咯（ＰＰＹ）薄膜中制成Ｐ２Ｗ１７Ｌａ／ＰＰＹ／ＧＣ化学修饰电极,既保持该杂多酸的电化学活性和电催化性能,又具有良好的稳定性和灵敏度。研究表明, ０． ５０ ｍｏｌ／Ｌ ＨＣＩ溶液中,聚吡咯薄膜中 Ｐ２Ｗ１７Ｌａ的第一对氧化还原峰对 ＮＯ２的电还原具有良好的催化活性,其催化电流与 ＮＯ２浓度在 ６．０ × １０－５－ １．０ × １０－２ｍｏｌ／Ｌ范围内呈线性关系。     

蒽醌/聚吡咯复合膜修饰电极的电化学行为和电催化活性

在水溶液中制备了掺杂蒽醌磺酸盐(AQS)的聚吡咯(PPy)/玻碳复合膜修饰电极,采用循环伏安法和旋转圆盘电极技术研究了该修饰电极在不同pH值溶液中的电化学行为以及在pH=5.5的磷酸盐缓冲溶液中对氧还原反应的电催化性能和动力学.结果表明,与裸玻碳电极相比,PPy膜的存在不仅降低了AQS的反应电位和峰电位差,而且增大了其氧化还原反应的峰电流,H2AQ/HAQ-氧化还原对的电离常数为9.5.AQS/PPy膜修饰电极上氧的还原主要是两电子还原为H2O2的不可逆过程,H2AQ对氧还原反应起主要催化作用,还原过程符合异相氧化还原催化机理.该修饰电极具有良好的电化学重现性.     

The determination of adrenaline on the porous gold film modified glassy carbon electrode

A simple method has been developed to prepare porous Au film-modified glassy carbon electrode (PAu/GCE). By using a simple electrodeposition process, a dense porous Au (PAu) film possessing good adhesion, large surface area, and mechanical integrity, was obtained. The surface characterization studies confirm that the formation of porous film constituted of Au nanoparticles. It was found, from the CV studies, that the prepared PAu modified electrode shows excellent catalytic activity for the electro-oxidation of adrenaline (AD) in a neutral medium. As to the electrochemical response of redox of adrenaline/adrenalinequinone couple in 0.1 M pH 7.0 phosphoate buffer solution (PBS), at the PAu/GCE, the anodic peak potential E _pa shifted by 50 mV negatively in the negative direction, compared to that on the Au film modified glassy carbon electrode (Au/GCE), indicating the extraordinary activity of PAu in electrocatalysis for the oxidation process of AD. The application of the modified electrode for the determination of AD in pharmaceutical preparations indicates that the PAu/GCE has good sensitivity and reproducibility.     

Preparation and Properties of Composite Polypyrrole/Pt Catalyst Systems

Three different methods for the preparation and modification of conducting polymer/noble metal catalyst systems consisting of polypyrrole (PPy) and platinum (Pt) are described for the anodic oxidation of methanol. The first method consists of the electrochemical deposition of a thin PPy film on glassy carbon substrate, which is modified with Pt either by electroreduction of hexachloroplatinate, codeposition from a nanodispersed Pt solution, or incorporation of tetrachloroplatinate as counterion followed by cathodic reduction. A second method is based on the preparation of nanoscale PPy(PSS) particles by chemical polymerization with polystyrenesulfonate PSS^– as the counterion. This material is a favorable catalyst support for nanodispersed Pt due to its mixed electronic and cationic conductivity. To study the electrochemical properties, the particulate system PPy(PSS)/Pt is fixed in a carbon fiber electrode. A third method was developed which brings the polypyrrole in close contact to a proton exchanger membrane (Nafion) using a special chemical deposition procedure. This method is useful for preparing a membrane electrode assembly (MEA) consisting of Nafion/PPy/Pt. The structural, morphological, and electrocatalytic properties for methanol oxidation were studied depending on the preparation method applied using surface analytical techniques (TEM, SEM, and EDX) and electrochemical measurements (cyclic voltammetry and transient techniques).     

抗坏血酸在铂纳米粒子/碳纳米管/聚吡咯复合修饰电极上的电化学行为

研究了抗坏血酸在铂纳米粒子/碳纳米管/聚吡咯复合膜修饰电极上的电化学行为,发现复合修饰电极对抗坏血酸的电化学反应具有较好的电催化作用,与空白电极相比电化学氧化电流增加了7倍。用电化学阻抗谱研究了电子在修饰电极界面上的传输过程,发现修饰电极的电催化性能与修饰电极可以提高界面电子传输能力是相关的。同时研究了碳纳米管用量、支持电解质、扫速、电沉积条件等因素对抗坏血酸在修饰电极上电化学行为的影响。     

A novel nitrite sensor based on graphene/polypyrrole/chitosan nanocomposite modified glassy carbon electrode

A novel nitrite sensor was fabricated based on a graphene/polypyrrole/chitosan nanocomposite film modified glassy carbon electrode. The nanocomposite film was characterized by scanning electron microscopy, Fourier transform infrared spectroscopy and Raman spectroscopy. The electron transfer behaviour of the modified electrodes was investigated in [Fe(CN)(6)](3-)/(4-) redox probe using cyclic voltammetry and electrochemical impedance spectroscopy. Differential pulse voltammetry and amperometry were used to study the electrochemical properties of the proposed sensor. Under optimum conditions, the sensor exhibited good reproducibility and stability for nitrite determination. Linear response was obtained in the range of 0.5-722 μM with a detection limit of 0.1 μM (S/N = 3) for nitrite determination.     

掺杂聚吡咯钨磷钴和钨磷镍三元杂多酸的电合成及其电化学性质

电化学性能;掺杂聚吡咯钨磷钴和钨磷镍三元杂多酸的电合成及其电化学性质     

Au-Pt双金属纳米颗粒在玻碳电极上的自组装

利用硼氢化钠还原HAuCl4和H2PtCl4的混合溶液, 制备了Au- Pt双金属纳米颗粒. UV- Vis、TEM、ED、XRD、XPS等研究结果表明双金属纳米颗粒为Au- Pt合金. 在玻碳电极上通过有机偶联层半胱氨酸进行了Au- Pt双金属纳米颗粒的自组装, 得到Au- Pt/半胱氨酸/玻碳电极, 并通过SEM对其表面结构进行了表征, 粒子的平均粒径为12.6 nm. 用循环伏安法对Au- Pt/半胱氨酸/玻碳电极的电化学性能进行了测试. 结果表明Au- Pt/半胱氨酸/玻碳电极具有良好的电催化甲醇氧化性能.     

Three‐Dimensionally Ordered Polypyrrole Electrode: Electrochemical Study on Capacity and Degradation Process

In this work we critically compare electrochemical stability and specific capacitance of the three‐dimensional (3D) polypyrrole membrane and the dense polypyrrole film fabricated at the same conditions. Herein, we concern about study the influence of the electrode morphology on the kinetics of diffusion process by analyzing voltammetry, coulometry and impedance response. This allows us to calculate well‐sustained values of the diffusion coefficient, specific capacitance and diffusion resistance, which summarize equilibrium parameters. The ultra‐thin walls, uniform porosity and well‐ordered structure called “inverse opal” ensure an efficient mass transport and fast charge exchange of the porous polypyrrole resulting in superior electrochemical performance. The calculated diffusion coefficient of anion doping process in 3D polypyrrole is more than two orders of magnitude higher comparing to the control sample. The improved electrochemical stability at high anodic potential is correlated with unique porous and dynamic structure of the polymer that is capable of handling volumetric changes upon electrode polarization. An effective diffusion length for the porous PPy remains unchanged during degradation process (overoxidation) and is significantly smaller in comparison to the dense polymer film, indicating that the degradation process for the porous system is somewhat hindered. This work provides an important insight for fast and scalable synthesis of 3D polymer electrode with improved electrochemical activity and stability for the future energy storage applications.     

Synthesis of palladium–polypyrrole nanocomposite and its electrocatalytic properties in the oxidation of formaldehyde

Three alternative methods were developed for the synthesis of modifying palladium–polypyrrole layers on the surface of an inert electrode. Their electrocatalytic activity toward formaldehyde under inert atmosphere was checked. All the suggested methods are one-stage and allow synthesis of a film on the electrode surface from a solution containing a palladium salt and pyrrole in the absence of other active reagents. The electrochemical methods (potentiodynamic and double cathodic and anodic pulses techniques) in an aqueous medium give films with poorly reproducible electrocatalytic properties, while the chemical redox synthesis affords films with reproducibly high electroactivity toward methylene glycolate.     

多壁纳米碳管空气电极的交流阻抗研究

研究了多壁纳米碳管、活性炭和石墨等空气电极的交流阻抗特性.结果表明,纳米碳管空气电极的阻抗谱由两个半圆组成,高频区半圆对应欧姆极化阻抗,低频区半圆对应电化学极化阻抗.催化剂Pt以纳米颗粒的形式沉积在碳管的外表面,明显减小了电极的欧姆阻抗和电化学极化阻抗,提高了氧还原反应的电催化活性.活性炭电极除存在电化学阻抗外,还存在薄液膜扩散阻抗(Nernst扩散),石墨电极形成的薄液膜反应区域较小,电极反应呈Warburg扩散阻抗特征,相应的电催化活性较低.采用交流阻抗等效电路分析方法,对拟合的动力学数据进行了解释.     

An impedance immunosensor for the detection of the phytohormone abscisic acid

The phytohormone abscisic acid (ABA) is the major player in mediating the adaptation of plants to stress. Previously developed phytohormonal biosensors usually employed indirect detection of the products of conjugated oxidase reactions. A label-free electrochemical impedance immunosensor for ABA detection was developed using an anti-ABA antibody adsorbed directly on a porous nanogold film. The film was produced electrochemically on a glassy carbon electrode in 0.008 mol/L hydrogen tetrachloroaurate solution containing 0.004 mol/L lead acetate with an applied potential of −0.5 V (versus Ag/AgCl) for 50 s. The anti-ABA antibody was immobilized onto the porous nanogold through electrostatic adsorption and covalent conjugation. Electrochemical impedance spectroscopy was used to characterize the successful construction of the porous nanogold film and the stepwise modification of the glassy carbon electrode. The concentration increase of the antigen brought about a decrease of the interfacial electron transfer, which also meant an increase of the impedance signal. The experimental parameters pH, antibody incubation time, and antibody concentration were optimized. The results showed significant linearity R = 0.9942, with the content of ABA in the range 0.5–5,000 ng/mL with a detection limit at about 0.1 ng/mL.     

水介质中吡咯的电化学聚合反应

研究了扫描电位上限对循环伏安法制备聚吡咯膜性能的影响，吡咯在水溶液中于玻碳电极表面化学聚合的起始电位为0．58V，在聚吡咯（Ppy）修饰电极表面聚合的起始电位为0．55V，当聚合电位上限在0．80V以上时，Ppy的氧化还原反应可逆性变差，同时，氧化电位过高将导致Ppy膜导电性能下降；研究了聚合介质对循环伏安法制备导电聚吡咯膜的影响，实时观察了吡咯（Py）聚合过程溶液中质子含量的动态变化，发现Py聚合伴随有质掺杂←→释放过程；结合Ppy膜的元素分析、ESR分析和IR光谱分析，总结出了水介质中电化学聚合高导电性聚吡咯膜的条件。     

Electrochemical study of Azathioprine at thin carbon nanoparticle composite film electrode

Thin carbon nanoparticle/Nafion film (CNP/N), as a novel electrode material, is formed on the surface of the glassy carbon electrode in a simple solvent evaporation process. The electrochemical behavior of Azathioprine (Aza) at the CNP/N-modified electrode is investigated in detail by the means of cyclic voltammetry. During the electrochemical reduction of Aza, an irreversible cathodic peak is appeared. Cyclic voltammetric studies indicated that the reduction process has an irreversible and adsorption-like behavior. The observed reduction peak is attributed to a four-electron process referring to the reduction of nitro group to the corresponding hydroxylamine. The prepared electrode showed an excellent catalytic activity toward the electro-reduction of Aza leading to a significant improvement in sensitivity as compared to the bare glassy carbon electrode where the electrochemical activity for this compound is very weak.     

Micropatterning of biomolecules on a glass substrate in fused silica microchannels by using photolabile linker-based surface activation

Platinum nanoparticles were electrodeposited onto a film of dihexadecyl hydrogen phosphate deposited on a glassy carbon electrode (GCE) and modified with dispersed acetylene black. Scanning electron microscopy and electrochemical impedance spectroscopy revealed that this nanocomposite has a uniform nanostructure and a large surface area that enables fast electron-transfer kinetics. The modified GCE showed high electrocatalytic activity for the oxidation of nitric oxide (NO). Under optimal conditions, the oxidation peak current of nitric oxide is linearly related to the concentration of NO in the concentration range between 0.18 and 120?μM, and the detection limit is as low as 50?nM (at an S/N of 3). The modified electrode was successfully applied to sensing of NO as released from rat liver.

Selective Detection of Dopamine Using Glassy Carbon Electrode Modified by a Combined Electropolymerized Permselective Film of Polytyramine and Polypyrrole‐1‐propionic Acid

A sensitive and selective electrochemical method for the determination of dopamine using a combined electropolymerized permselective film of polytyramine and polypyrrole‐1‐propionic acid on a glassy carbon (GC) electrode was developed. The formation of a “layer‐by‐layer” film has allowed for selective detection of dopamine in the presence of 3,4‐dihydroxyphenylalanine (L‐DOPA), DOPAC, ascorbic acid, uric acid, epinephrine and norepinephrine. The modified electrodes exhibited a detection limit of 100 nM with linearity ranging from 5×10^?6 to 5×10^?5 M. No cleaning step was required during the course of repeated measurement.     

Fabrication, Characterization and Electrocatalysis of an Ordered Carbon Nanotube Electrode

A method for fabrication of ordered carbon nanotube (CNT) film,which was template-synthesized within the highly ordered pores of a commercially available alumina template membrane,modified glassy carbon(CNT/GC) electrode was established.The CNT/GC electrode showed excellent electrocatalytic activity toward dopamine electrochemical reaction without introducing any electrochemically active group into CNT film or activating any electrochemically active group into CNT film or activating the electrode electrochemically.DA undergoes ideal reversible electrochemical reaction on CNT/GC electrode at low scan rate(≤20mV/s) with an excellent reproducibility and stability.The CNT/GC electrode might be used in biosensors because the highly ordered CNT may present a steric effect on more efficient redox reactions of biomolecules.     

Nonenzymatic sensing of glucose using a carbon ceramic electrode modified with a composite film made from copper oxide,overoxidized polypyrrole and multi-walled carbon nanotubes

Microchimica Acta - A carbon ceramic electrode was modified with a thin film composed of overoxidized polypyrrole, CuO and multi-walled carbon nanotubes. The surface morphology, electrochemical...