硫化亚铁阴极的电极过程机理

应用循环伏安法研究了硫化亚铁阴极的电极过程机理 ,电极反应过程伴随着难溶硫化亚铁的形成与溶解 ,该电极过程受欧姆电阻控制 .根据循环伏安曲线峰电流和峰电位与扫描速度平方根成线性关系 ,提出了电极过程的欧姆电阻控制模型 ,导出峰电位和峰电流与扫描速度之间的关系式 ,理论分析与实验结果一致 .     

硫代硫酸盐在铂电极上的电化学氧化行为

用循环伏安法测定了硫代硫酸盐在铂电极上的电化学氧化行为, 结果表明, 其电化学氧化行为与体系的pH和扫描速度密切相关. 当pH为5~6时, 硫代硫酸盐的循环伏安曲线出现三个氧化峰, 峰电位分别在0.05 V、0.58 V和1.02 V附近, 随pH值升高和扫描速度的降低, 0.05 V附近的氧化峰逐渐变得明显, 同时各氧化峰的峰电位与扫描速度的对数, 峰电流与扫描速度的平方根均成很好的线性关系；当pH为8~9时, 硫代硫酸盐的循环伏安曲线出现三个明显的氧化峰, 峰电位分别在0.05 V、0.91 V和1.22 V附近. 随扫描速度降低, 循环伏安曲线出现交叉, 体系呈现明显的电化学振荡行为；但当pH=10时, 1.22 V附近的氧化峰消失. 硫代硫酸盐的电化学氧化行为非常复杂, 电化学氧化机制随体系pH的变化而变化.     

超微盘电极上苯胺的循环扫描伏安法电化学聚合

本文对超微盘电极上苯胺的循环扫描伏安法电化学聚合进行了研究。对研究过程的伏安曲线性质以及峰电流和单体浓度，循环扫描次数和速率及电位之间的关系作了详细的探讨，还给出了峰电流的经验式。     

循环伏安法定性分析矿物中某元素硫氧化物占比

根据硫化矿和氧化矿在电解液为硫酸钠的三电极体系中循环伏安曲线的差异，建立了循环伏安法定性分析矿物中某元素硫氧化物占比的方法，以铜的硫化物(黄铜矿)和氧化物(孔雀石)纯矿物进行循环伏安法测试。结果表明，在扫描速率0.1 V/s,扫描电压范围-0.8 V～0.8 V时，黄铜矿循环伏安曲线出现氧化还原峰，孔雀石循环伏安曲线未见明显氧化还原峰；黄铜矿和孔雀石混合物循环伏安曲线上的氧化还原峰电位与单一黄铜矿的氧化还原峰电位几乎一致，但峰电位对应的电流大小与矿物占比存在一定的关系。由此，可以通过循环伏安法定性判断混合矿中黄铜矿与孔雀石的占比，实现循环伏安法定性分析矿物中某元素硫氧化物占比。     

LiCl-KCl熔盐体系中镨(Ⅲ)在镍电极上的电化学行为

采用循环伏安、方波伏安、计时电位和开路计时电位等电化学方法研究了Pr(Ⅲ)离子在共晶LiClKCl熔盐中Ni电极上的电化学行为及Pr-Ni合金化机理.结果表明,Pr(Ⅲ)离子的电化学还原过程为三电子转移的一步反应.与惰性Mo电极上的循环伏安曲线相比,Pr(Ⅲ)离子在活性Ni电极的循环伏安曲线上还出现了4对氧化还原峰,表明Pr(Ⅲ)离子在Ni电极上发生欠电位沉积,是由于生成不同的Pr-Ni金属间化合物.采用X射线衍射仪和扫描电子显微镜-能谱仪等对恒电位电解的产物进行了表征.结果表明,在不同电位下进行恒电位电解时,每个电位上只得到一种Pr-Ni金属间化合物,分别为Pr Ni2,Pr Ni3,Pr2Ni7和Pr Ni5.     

腺嘌呤、腺苷和5′-腺苷酸电化学氧化行为的比较研究

本文对腺嘌呤、腺苷和5’-腺苷酸在碳糊电极上的氧化行为及结构的关系作比较研究。应用微分脉冲伏安法考察了三种生物分子的峰电位和峰电流及其与pH和浓度的关系,通过线性扫描伏安法测量了其电极反应速度控制步骤的动力学参数(βn_b),利用计时电流法测定了三种化合物的扩散系数(D),并计算出相应氧化反应的速度常数(k_b)。     

卟啉化合物的电催化行为IV.载在石墨上经热处理的四(对甲氧基苯基)卟啉钴对胱氨酸还原的电催化作用

应用循环伏安法及带环的旋转圆盘电极(RRDE)在2mol.dm^-^3HCl溶液中研究了经热处理的四(对甲氧基苯基)卟啉钴(Co-TMPP)对胱氨酸还原反应的电催化作用.在循环伏安曲线上出现明显的氧化还原电流峰,表明Co-TMPP对胱氨酸还原有很好的电催化活性.在Co-TMPP/石墨电极上的还原反应为不可逆的简单电荷传递反应,其控制步骤的电子数为1.在极化电位较正时(-0.35~-0.45V)为电化学控制,在电位较负时(<-0.45V)为电化学及扩散混合控制.根据实验结果计算了动力学参数并初步讨论了反应机理.应用薄层盘环电极及聚四氟己烯粘结膜电极分别测定了胱氨酸还原反应的电流效率.实验结果表明,经热处理的Co-TMPP能提高胱氨酸还原反应的电流效率.     

聚灿烂甲酚蓝修饰玻碳电极的制备及电化学性质

在含灿烂甲酚蓝的磷酸缓冲溶液中,用循环伏安法扫描.在经预处理的玻碳电极上形成了聚合物薄膜.在-0.7V-+0.9V(vsSCE)的扫描电位范围和弱碱性介质中形成的薄膜具有较高电活性和稳定性.制备好的聚灿烂甲酚蓝修饰电极在磷酸缓冲溶液的循环伏安曲线有两对氧化还原峰,峰电位随pH升高而向负电位方向移动.该电极对NADH的电化学氧化有催化作用,使其氧化电位负移了270mV并增大了氧化峰电流.     

对磺酸基苯偶氮杯[4]芳烃电化学行为研究

以杯[4]芳烃和对氨基苯磺酸为原料,经重氮化-偶联反应合成了对磺酸基苯偶氮杯[4]芳烃,并使用紫外吸收光谱、红外吸收光谱、核磁共振等技术对其进行表征分析. 首次以CH₃COOH-CH₃COONa为缓冲溶液,使用循环伏安法研究对磺酸基苯偶氮杯[4]芳烃的电化学行为. 结果表明,当扫描电位在-0.5 ~ 1 V时,有1对氧化还原峰,其中氧化峰电位为0.302 V,还原峰电位为-0.003 V,且峰电流与峰电位均与扫描速率呈线性关系,推测该峰的形成受扩散控制影响,反应为动力学准一级可逆反应. 进一步利用多种电化学手段研究该电极反应,并求得动力学参数,反应活化能为14.84 kJ•mol^-1.     

LiCl-KCl熔盐体系中镨(Ⅲ)在镍电极上的电化学行为

采用循环伏安、 方波伏安、 计时电位和开路计时电位等电化学方法研究了Pr(Ⅲ)离子在共晶LiCl-KCl熔盐中Ni电极上的电化学行为及Pr-Ni合金化机理. 结果表明, Pr(Ⅲ)离子的电化学还原过程为三电子转移的一步反应. 与惰性Mo电极上的循环伏安曲线相比, Pr(Ⅲ) 离子在活性Ni电极的循环伏安曲线上还出现了4对氧化还原峰, 表明Pr(Ⅲ)离子在Ni电极上发生欠电位沉积, 是由于生成不同的Pr-Ni金属间化合物. 采用X射线衍射仪和扫描电子显微镜-能谱仪等对恒电位电解的产物进行了表征. 结果表明, 在不同电位下进行恒电位电解时, 每个电位上只得到一种Pr-Ni金属间化合物, 分别为PrNi₂, PrNi₃, Pr₂Ni₇和PrNi₅.     

Electrochemistry of vitamin B12: Part VII. Role of the base-off/base-on reaction in the oxido-reduction in the B12r-B12s couple in non-aqueous solvents

The cyclic voltammetric study of vitamin B_12r in DMSO shows the importance of the base-on/base-off reaction in the electrochemical reduction mechanism. Depending upon the flux of electrons flowing through the system. part of the base-on complex is reduced through prior opening of the nucleotide side-chain which gives rise to the more easily reduced DMSO-Co(II) complex. The quantitative analysis of the variations of the peak heights with the sweep rate allows the thermodynamic and kinetic characterization of the base-on/base-off reactions to be determined. DMSO thus appears as a stronger ligand toward Co(II) than water, leading to an increased participation of the base-off complex in the reduction process. The greater stability of the DMSO complex is also related to the observation that electron transfer is significantly slower than in the case of the water complex. The importance of the ligand exchange reactions in the reduction of B_12r is confirmed by the effect of pyridine additions. Three complexes then participate in the reduction process, their reduction potentials lying in the order DMSO >Py >Bzm. The reduction mechanism involving the interconversion of the three complexes is described as a function of the electrode potential, the flux of electrons and the pyridine concentration. An estimation of the equilibrium and rate constants of the three ligand exchange reactions is made, based on the variations of the cyclic voltammograms with the sweep rate and the pyridine concentration.     

Determination of electron transfer kinetic parameters by fourier transform electrochemical impedance spectroscopic analysis

A new attempt to obtain electron transfer kinetic parameters at an electrified electrode/electrolyte interface using Fourier transform electrochemical impedance spectroscopic (FTEIS) analyses of small potential step chronoamperometric currents is presented. The kinetic parameters thus obtained allowed mass transport free voltammograms to be constructed in an overpotential region, where the diffusion limits the electron transfer reaction, using the Butler-Volmer (B-V) relation. The B-V voltammograms clearly distinguish electrode reactions that are not much different in their electron transfer kinetic parameters, thus showing very similar normal linear sweep voltammetric (SCV) behaviors. Electrochemical reduction of p-benzoquinone, which displays nearly the same SCV responses at a gold electrode regardless whether the electrode is covered by a thiolated beta-cyclodextrin self-assembled monolayer, was taken as an example for the demonstration. The results show that the two voltametrically similar systems display very different electron transfer characteristics.     

腺嘌呤、腺苷和5'-腺苷酸电化学氧化行为的比较研究

本文使用微分脉冲伏安法, 循环伏安法, 计时电流法, 和线性扫描伏安法对这三种生物分子在碳糊电极上的氧化行为进行比较研究, 并对典电极反应动力学参数(βnb)、扩散系数(D)及反应速度常数(Kb)进行测量比较.     

Electrochemical determination of homocysteine using carbon nanotubes modified paste electrode and isoprenaline as a mediator

Homocysteine (HCy) is an important amino acid containing thiol group and is known as a risk factor in relation to ischemic heart disease and stroke. In this study the electrochemical determination of homocysteine (HCy) has been described using isoprenaline hydrochloride (ISP) as a mediator on multiwall carbon nanotubes modified paste electrode (MWCNTPE). Electrochemical behavior of homocysteine was investigated by cyclic voltarrtmetry and chronoamperometry. The cyclic voltammograms showed that the electrocatalytic oxidation of homocysteine occurs in the presence of ISP on the surface of MWCNTPE at a potential about 640 mV. Also, results showed that the oxidatation peak current of HCy at the modified carbon nanotubes electrode was more than unmodified electrode. The diffusion coefficient and the kinetic parameters including electron transfer coefficient and rate constant of electrocatalytic reaction were determined using electrochemical approaches. Linear sweep voltammetry results showed that electrocatalytic oxidation peak current of HCy had linear dynamic range in the range of 5.0 to 800 μmol L^?1 with a detection limit of 3.3 μmol L^?1 in pH 3.5 (universal buffer).     

Mass transfer to tubular electrodes. Part 2: CE process

The kinetic equations for an electrochemical process consisting of a homogeneous first‐order chemical reaction followed by electron transfer at the electrode surface are solved numerically, for linear sweep voltammetry under hydrodynamical conditions in a tubular electrode. Models for both the cases involving reversible as well as irreversible electrode charge transfer reaction are investigated. The influence on current–potential voltammograms of the experimentally measurable parameters like the potential scan rate, axial flow rate and chemical equilibrium parameter is examined and depicted graphically. This revised version was published online in July 2006 with corrections to the Cover Date.     

Cyclic voltammetry at microstructured electrodes

We present the theoretical treatment of cyclic voltammograms at microstructured electrodes. Calculations of voltammograms permit the determination of electrochemical parameters of redox systems in a single cell in parallel with the determinations of the spectroscopic parameters. The structural parameters of the electrode can be determined using the theoretical treatment presented if the electrochemical parameters of the redox system are known. Furthermore, lithographic-galvanic (LIGA) structures can be used as a model for microporous electrodes. Regression analysis was used to compare experimental and calculated cyclic voltammograms as well as to determine the electrochemical and spectroscopic parameters. A modified Randles-Sevčik equation has been derived to described the peak current dependence of cyclic voltammograms at micro-structured electrodes for both reversible and quasi-reversible charge transfer.     

多壁碳纳米管负载氢氧化铁纳米胶粒修饰玻碳电极固相微萃取及电化学检测三氯生

采用多壁碳纳米管负载氢氧化铁纳米胶粒修饰的玻碳电极对三氯生进行固相微萃取富集,其萃取过程符合一级动力学方程和Temkin吸附等温方程。循环伏安法表明三氯生在0.558 V处有一不可逆的氧化峰,pH值与氧化峰电位呈良好的线性关系,表明三氯生的氧化过程为1个电子伴随着1个质子的反应。氧化峰电流随扫速增加而线性增加,为吸附控制反应,氧化峰电流与三氯生浓度的对数在3.333×10~(-6)~3.333×10~(-4)mol/L范围内呈线性关系,检出限达3.333×10~(-6)mol/L。该方法的重现性及选择性好,已用于洗手液中三氯生的检测。以MOPAC2012软件提供的PM7半经验分子轨道方法,在设计的三氯生与氢氧化铁纳米胶粒形成的络合物分子簇模型上进行半经验分子轨道计算,热力学及前线轨道相关系数的计算结果表明:形成的三氯生络合物的ΔG0,证明形成了稳定的三氯生络合物;且三氯生络合物形成过程中发生了电子转移。     

Redox reaction characteristics of ferritin-immobilized onto poly(l-lysine)-modified indium oxide electrodes

Ferritin-immobilized poly(l-lysine)-modified electrodes showed well-defined redox waves representing ferritin. Cathodic and anodic peak currents obtained from cyclic voltammograms were proportional to potential sweep rates. From charge flow values during oxidation or reduction reactions calculated by peak areas in cyclic voltammograms, and the surface coverage of ferritin, reacted iron atoms per ferritin molecule were calculated. Obtained numbers of reacted iron atoms were significantly smaller than expected values from iron atoms at ferrihydrite core surfaces of ferritin, which would be caused by the rate-determining ion flow through ion channels of ferritin to compensate for charges in the ferritin cavity. Anodic and cathodic peak potentials in cyclic voltammograms were significantly dependent on cationic species in the solution, though voltammetric shapes and peak currents were independent of cations. From the obtained results that structural changes in ferritin were not detected by fluorescent spectra, it is thought that the cationic dependence on ferritin redox peak potentials is caused by ferritin cores.     

Electrochemical Characterization of Polymerized Cresol Red Film Modified Glassy Carbon Electrode and Separation of Electrocatalytic Responses for Ascorbic Acid and Dopamine Oxidation

A cresol red modified glassy carbon electrode was prepared using an electrochemical method. The cyclic voltammograms of the modified electrode indicate the presence of a couple of well-defined redox peaks, and the formal potential shifts in the negative direction with increasing solution pH. The modified electrode exhibits high electrocatalytic activity toward ascorbic acid oxidation, with an overpotential of 300 mV less than that of bare glassy carbon electrodes, and drastic enhancement of the anodic currents. The calibration graph obtained by linear sweep voltammetry for ascorbic acid is linear in the range of 50∼500 µM. The electrode markedly enhances the current response of dopamine and can separate the electrochemical responses of ascorbic acid and dopamine. The separation between the anodic peak potentials of ascorbic acid and dopamine is 190 mV by cyclic voltammetry. The linear sweep voltammetric peak currents for dopamine in the presence of 2 mM ascorbic acid vary linearly with a concentration of between 10 and 100 µM.     

Voltammetry at microcylinder electrodes: Part I. Linear sweep voltammetry

An expression for reversible linear sweep voltammograms at stationary microcylinder electrodes is presented. From numerical calculations theoretical voltammograms are obtained for various values of the dimensionless parameter, p=(nFa²v/RTD)^{$\text{1}\text{2}$}, where a is the radius of the electrode, v the potential sweep rate and D the diffusion coefficient. The peak current and the peak potential are evaluated from the voltammograms as functions of p and are expressed by approximate equations with high precision. In order to examine the validity of the equations, an experimental study was made at platinum wire micro-electrodes (a=10?10) μm). The experimental voltammograms were in good agreement with the ones predicted theoretically for various values of the sweep rates and for several different radii of the electrodes.