椭圆法用于阳极溶出伏安法测定微量银

用新物理量Ｖｏｐ的椭圆法对阳极溶出伏安法分析的含银离子浓度为１０＾５－１０＾－９ｍｏｌ／Ｌ的一系列溶液进行了研究。结果表明：光学方法与电化学方法所得分析结果相同；椭圆法可检测的浓度下限比电化学方法低一个数量级以上。而且测量的相对平均偏差也小于电化学方法。     

阳极溶出伏安法测定镍的椭圆法研究

阳极溶出伏安法测定镍的椭圆法研究①朱伟杨雨如黄宗卿＊（重庆大学应用化学系重庆４０００４４）电极表面准单分子层上发生的物理或化学变化能使入射的椭圆偏振光的光学参量发生明显的变化，理论分析和实验测定均表明椭圆法可灵敏地提供电极表面０．１ｎｍ厚度层内发生变...     

简易电解池—改换介质—阳极溶出伏安法

采用自制的简易电解池，以圆盘旋转玻碳电极为工作电极，用于阳极溶出伏安法改换溶出介质的可行性研究。以同时测定Ｃｕ（Ⅱ），Ｓｂ（Ⅲ）为例，试验了改换溶出介质的条件。此方法用于矿样中铜和锑的同时测定，结果满意。     

铜膜差分脉冲阳极溶出伏安法测定药物中铋的含量

研究了铜膜电极代替汞膜电极测定重金属铋的差分脉冲溶出伏安法。实验了同位镀膜法测定铋的条件。在最佳实验条件下,Bi3+浓度在5×10-8~2×10-5mol/L范围内,其溶出峰峰高与浓度呈线性关系,检出限达到1×10-8mol/L。测定了一些药物中铋的含量,结果准确。     

电化学法修饰玻璃碳电极及其铜的阳极溶出伏安法测定

在邻苯二酚－甲醛－ＮａＯＨ介质中，于－０．１￣＋１．５Ｖ（ｖｓ，ＳＣＥ）扫描范围内用循环伏安法制作修饰玻璃碳电极。电极可用于水中痕量铜的测定，其灵敏度比未修饰的玻璃碳电极提高３５倍以上，定量下限为０．１ｎｇ／ｍｌ。     

溶出伏安法测定乌药中的铜铅镉

在KNO3底液下,用线性扫描阳极溶出伏安法同时测定了乌药样品中铜、铅、镉3种金属的含量.结果表明,在最佳实验条件下,铜、铅、镉的峰电位分别为0.067、-0.45和-0.64V(vs ScE);铜、铅、镉金属离子的质量浓度在0-0.8 mg·L-1范围内,呈现良好的线性关系,相关系数分别为0.991 3、0.990 5...     

阳极溶出伏安法测定痕量汞的研究

痕量汞的测定方法有很多[1 ] 。原子吸收法虽然具有较高的灵敏性 ,但是仪器设备昂贵 ,分析步骤较繁琐。近年来 ,化学修饰电极阳极溶出伏安法在对汞痕量分析方面的研究报道也不少[2～3] ,测定的检测限一般在 1 0 - 6～ 1 0 - 9ｇ·ｍｌ- 1 ,但它容易产生记忆效应 ,洗脱不良。本文以玻碳电极为工作电极 ,在ＨＣｌ ＮａＣｌ Ｃｄ2 +中 ,示差脉冲阳极溶出伏安法 (ＤＰＳ)测定痕量汞 ,汞的平均回收率达80 %。1　实验部分1 1　主要仪器与试剂ＰＡＲ— 384极谱仪 (美国 ) ;三电极系统 :工作电极为玻碳电极 ,参比电极为Ａｇ/ＡｇＣｌ电极 ,对电极为…     

Coulometric Anodic Stripping Voltammetry of Lead at Copper Column Electrode

A flow coulometric electroanalytical system using a copper column electrode with a copper wire inserted into a Nafion tube was developed to determine Pb(II) content based on anodic stripping voltammetry. The electrolysis efficiency of 5 μM Pb(II) was evaluated to be 100.4±4.5 % (n=5) when the length of the copper wire and flow rate of the Pb(II) solution were 50 cm and 0.1 mL min⁻¹, respectively. The amount of electricity due to the re-oxidation of Pb electrodeposited at the copper column electrode was proportional to the concentration of Pb(II) in the range between 0.1 to 100 μM, and the limit of detection for Pb(II) was 0.8 μM for a deposition time of 15 min. Interference from the presence of Cd(II) could be avoided and the selective determination of Pb(II) was successfully achieved by adjustment of the electrodeposition potential.     

Zinc Detection in Serum by Anodic Stripping Voltammetry on Microfabricated Bismuth Electrodes

Zinc (Zn) homeostasis is required for a functional immune system. Critically ill patients often exhibit decreased Zn serum concentrations and could potentially benefit from Zn supplementation as a therapeutic strategy. However, the conventional approaches to monitoring Zn are time consuming and costly. This work reports on detection of Zn by anodic stripping voltammetry (ASV) on bismuth electrodes in a microfabricated electrochemical cell. The working potential window of the electrodeposited bismuth film electrode was investigated by cyclic voltammetry, while square wave ASV was used for measuring Zn in acetate buffer and blood serum. Conditions critical to sensing, such as preconcentration potential, preconcentration time, and buffer pH, were optimized for Zn detection. The sensor was successfully calibrated with pH 6 acetate buffer in the physiologically‐relevant range of 5 µM to 50 µM Zn and exhibited well‐defined and highly repeatable peaks. The sensor was used to demonstrate measurement of Zn in blood serum digested in HCl. The results of this work show that Zn detection in serum is possible with smaller sample volumes (µL vs. mL) and faster turnaround time (hours vs. days) as compared with the conventional spectroscopic methods.     

Anodic Stripping Voltammetry of Silver Nanoparticles: Aggregation Leads to Incomplete Stripping

The influence of nanoparticle aggregation on anodic stripping voltammetry is reported. Dopamine-capped silver nanoparticles were chosen as a model system, and melamine was used to induce aggregation in the nanoparticles. Through the anodic stripping of the silver nanoparticles that were aggregated to different extents, it was found that the peak area of the oxidative signal corresponding to the stripping of silver to silver(I) ions decreases with increasing aggregation. Aggregation causes incomplete stripping of the silver nanoparticles. Two possible mechanisms of ‘partial oxidation’ and ‘inactivation’ of the nanoparticles are proposed to account for this finding. Aggregation effects must be considered when anodic stripping voltammetry is used for nanoparticle detection and quantification. Hence, drop casting, which is known to lead to aggregation, is not encouraged for preparing electrodes for analytical purposes.     

Bismuth Detection in Alkaline Electrolyte via Anodic Stripping Voltammetry for Battery Separator Evaluation

Anodic stripping voltammetry (ASV) has been widely used for the detection of several heavy metal ions in neutral and acidic solution, in many cases employing electrodes and/or solutions incorporating Bi. In this work we demonstrate that Bi(OH)₄⁻ ion concentration can be measured in highly alkaline 8.5 M KOH solution using ASV. The addition of Pb in similar concentrations to the Bi(OH)₄⁻ being measured is shown to improve both the sensitivity and precision of the method. When the Pb additive is employed, a formal limit of detection of 8.5 ppb is achieved, compared to 17.3 ppb when the Pb additive is not used. Due to the use of Bi additives in alkaline battery chemistries, it follows that separators which limit Bi(OH)₄⁻ diffusion into the bulk electrolyte and away from the electrodes are of interest. For this purpose, we utilize ASV to determine Bi(OH)₄⁻ diffusion rates through Celgard 3501, cellophane 350P00, and Nafion 211. Bi(OH)₄⁻ crossover rates, as determined by ASV, are shown to be repeatable and consistent with expectations from the known separator structure.     

Fast-Scan Anodic Stripping Voltammetry for Detection of Pb(II) at Picomolar Level

Russian Journal of Electrochemistry - Fast-scan anodic stripping voltammetry (FSASV) was applied to sensitively detect Pb2+ on a mercury film electrode (MFE). The method was involved with a...     

Ultra-Sensitive Anodic Stripping Voltammetry for the Determination of Xanthine at a Glassy Carbon Electrode

An electrochemical anodic stripping procedure for ultra-trace assay of xanthine in Cu²⁺ solution at a glassy carbon electrode (GCE) is described. Cyclic voltammetry was used to characterize the nature of the process taking place at the GCE. The anodic stripping response in the presence of Cu²⁺, at 150mV (peak I) and 600mV (peak II), is evaluated with respect to various experimental and instrumental conditions. Voltammetric studies show that the mechanism of the overall reaction is similar to that of the oxidation of purine derivatives at a pyrolytic graphite electrode. It is found that the copper metal deposited onto the GCE was oxidized to Cu⁺ at around –180mV vs. Ag/AgCl and the generated Cu⁺ reacted with xanthine to accumulate on the GCE as an insoluble compound. The Cu⁺-xanthine compound accumulated on the GCE was redissolved by the oxidation of Cu⁺ to Cu²⁺ at ca. 150mV, and the concentration of xanthine in the vicinity of the GCE increased. The results enabled us to use the measurement of the oxidation peak current as the basis of a simple, accurate and rapid method of determining xanthine within a concentration range of 19.9 to 166nM for peak (I) and 0.24 to 17.2µM for peak (II). Promising results were obtained for xanthine determination by using an external mixing step prior to stripping measurements, which yielded a detection limit of 0.138µgL^–1 (9.1×10^–10M) xanthine. The effect of some interferences (e.g. purine compounds, amino acids and some metal ions) was considered.     

ZSM-5催化剂中镍、铜含量的溶出伏安分析

考察了阳极溶出伏安法测定ZSM-5催化剂中Cu2 和Ni2 的可行性。实验采用玻碳汞膜电极为工作电极的三电极系统,在pH=0.73的0.24 mol.L-1HCl底液中,Cu2 在-0.25 V(vs.SCE)附近有一个灵敏的一阶导数溶出峰,其峰高与Cu2 在0.01~0.325μg.mL-1范围内有较好的线性关系,检出限为0.004596μg.mL-1,相关系数为0.9991,回收率在98.00%~100.5%,精密度在2.27%~5.14%;在pH=9.41的0.06 mol.L-1NH4OH-NH4Cl底液中,Ni2 在-0.30 V(vs.SCE)附近有一个灵敏的一阶导数溶出峰,此峰高与Ni2 在0.5~5.5μg.mL-1范围内有较好的线性关系,检出限为0.4422μg.mL-1,相关系数为0.9996,回收率在98.12%~101.7%,精密度在3.64%~6.21%。常见干扰离子Fe3 、Zn2 、Cd2 、Ni2 、Al3 等对镍和铜的分析无影响。用本法对ZSM-5催化剂中Cu2 、Ni2 含量进行了测定,获得了满意的结果。