聚对氨基苯磺酸/碳纳米管复合膜修饰电极对尿酸与抗坏血酸的同时测定

通过在碳纳米管修饰玻碳电极表面电聚合的方法制备了聚对氨基苯磺酸/碳纳米管复合膜修饰电极(PABSA/CNT/GC),采用扫描电镜对电极形貌进行了表征。运用循环伏安法研究了尿酸(UA)和抗坏血酸(AA)在该修饰电极上的电化学行为,在pH7.0的PBS中,UA和AA分别在0.312、-0.025 V处产生灵敏氧化峰,与其在聚氨基苯磺酸和碳纳米管单层膜修饰电极上的电化学行为相比,两者的氧化峰电流显著增加,峰电位差(ΔEpa)达到337 mV,表明碳纳米管和聚合物产生协同增效作用,探讨了其作用机理。在优化实验条件下,建立了差分脉冲伏安法同时测定UA和AA的方法,UA、AA的线性范围分别为2.5×10-7~5.0×10-4、8.0×10-6~4.0×10-3mol/L,检出限分别为7.5×10-8、5.0×10-6mol/L。该方法用于尿样中UA和AA的测定,结果令人满意。     

聚磺基水杨酸/碳纳米管修饰电极在抗坏血酸共存时测定多巴胺

研究了聚磺基水杨酸/多壁碳纳米管修饰玻碳电极的制备及多巴胺在此修饰电极上的电化学行为, 讨论了修饰条件、扫速、溶液 pH 以及抗坏血酸的干扰对多巴胺在这种复合物电极上响应的影响. 在 pH 7.4 磷酸盐缓冲溶液中, 在1.0×10-3 mol/L 抗坏血酸共存的条件下, 多巴胺氧化峰电流与其浓度在 5×10-7～10-4 mol/L 范围内分段呈线性关系, 检出限为 1.0×10-7 mol/L. 结果表明: 聚磺基水杨酸/多壁碳纳米管修饰电极结合了多壁碳纳米管灵敏度高和聚磺基水杨酸选择性好的优点, 可用于抗坏血酸共存条件下多巴胺的测定.     

Electropreparation of Poly(benzophenone‐4) Film Modified Electrode and Its Electrocatalytic Behavior Towards Dopamine,Ascorbic Acid and Nitrite

The oxidation of benzophenone‐4 (2‐hydroxy‐4‐methoxybenzophenone‐5‐sulfonic acid) at glassy carbon electrode gives rise to stable redox active electropolymerized film during repetitive potential cycling between 0 to 1.3 V (Ag/AgCl). Cyclic voltammogram of poly(benzophenone‐4) film shows a redox couple with well‐defined peaks. The redox response of the modified electrode was found to be depending on the pH of the contacting solution. The peak potentials were shifted to a less positive region with increasing pH and the dependence of the peak potential was found to be 51 mV/pH. The electrocatalytic behavior of poly(benzophenone‐4) film modified electrode towards oxidation of dopamine, ascorbic acid and reduction of nitrite was investigated. The oxidation of dopamine and ascorbic acid occurred at less positive potential on poly(benzophenone‐4) film compared to bare glassy carbon electrode. For dopamine, the overpotential was reduced about 180 mV. Feasibility of utilizing poly(benzophenone‐4) film coated electrode in analytical estimation of dopamine, ascorbic acid and nitrite was also demonstrated.     

聚色氨酸／镍复合膜修饰电极测定抗坏血酸的研究

采用电化学聚合法制备了聚色氨酸／镍复合膜修饰玻碳电极,研究了抗坏血酸在该修饰电极上的电化学行为,建立了测定痕量抗坏血酸的新方法。在pH6．2的磷酸盐缓冲溶液中,抗坏血酸在修饰电极上产生一个灵敏的氧化峰,采用线性扫描伏安法测定,其氧化峰电流与抗坏血酸浓度在2．0×10^-6 -1．0×10^-3mol／L范围内呈良好的线性关系,检出限为5．0×10^-7mol／L。对1．0×10^-4mol／L抗坏血酸溶液平行测定6次,测定结果的相对标准偏差为1．9％。该法用于片剂中抗坏血酸含量的测定,加标回收率为97．8％～101．2％。     

聚谷氨酸修饰电极测定盐酸异丙肾上腺素

盐酸异丙肾上腺素( Isoprenaline Hydrochloride)是β肾上腺素受体激动药,有舒张支气管、改善心肌传导和扩张周围血管作用.目前,测定异丙肾上腺素的方法有高效液相色谱法[1,2]、毛细管区带电泳法[3]、化学发光法[4]和激光散斑法[5]等.     

Electrocatalytic oxidation of ascorbic acid and voltammetric determination with a ferrocene-modified platinum electrode

Ferrocene attached to the surface of a platinum electrode catalyses the electrochemical oxidation of ascorbic acid in acidic buffer solutions. The overpotential for ascorbic acid oxidation is decreased by 150 mV at pH 2.2 compared with reaction at bare platinum; and an increase in anodic current and decrease in cathodic current for the redox reaction of ferrocene occurs on addition of ascorbic acid to the solution. The ferrocene-modified electrode is useful for the voltammetric determination of ascorbic acid in natural fruit juices. The advantages result from the electrocatalytic effect and from the prevention of adsorption of inhibitory substances from solution.     

Sterically stabilized polypyrrole–palladium nanocomposite particles synthesized by aqueous chemical oxidative dispersion polymerization

Aqueous chemical oxidative dispersion polymerizations of pyrrole using PdCl₂ oxidant were conducted using water-soluble polymeric colloidal stabilizers in order to synthesize polypyrrole–palladium (PPy–Pd) nanocomposite particles in one step. PPy–Pd nanocomposite particles with number average diameters of approximately 30 nm were successfully obtained as colloidally stable aqueous dispersions, which were stable at least for 7 months, using poly(4-lithium styrene sulfonic acid) colloidal stabilizer. The resulting nanocomposite particles were extensively characterized with respect to particle size, size distribution, colloidal stability, nanomorphology, surface/bulk chemical compositions, and conductivity. X-ray photoelectron spectroscopy indicated the existence of poly(styrene sulfonic acid) colloidal stabilizer on the surface of the nanocomposite particles. Transmission electron microscopy studies confirmed that nanometer-sized Pd nanoparticles were distributed in the PPy matrix.     

A poly(3-acetylthiophene) modified glassy carbon electrode for selective voltammetric measurement of uric acid in urine sample

A reliable and reproducible method for the determination of uric acid in urine samples has been developed. The method is based on the modification of a glassy carbon electrode by 3-acetylthiophene using cyclic voltammetry. The poly(3-acetylthiophene) modified glassy carbon electrode showed an excellent electrocatalytic effect towards the oxidation of uric acid in 0.1 m phosphate buffer solution (PBS) at pH 7.2. Compared with a bare glassy carbon electrode (GCE), an obvious shift of the oxidation peak potential in the cathodic direction and a marked enhancement of the anodic current response for uric acid were observed. The poly(3-acetylthiophene)/GCE was used for the determination of uric acid using square wave voltammetry. The peak current increased linearly with the concentration of uric acid in the range of 1.25 x 10(-5)-1.75 x 10(-4) M. The detection limit was 5.27 x 10(-7) M by square wave voltammetry. The poly(3-acetylthiophene)/GCE was also effective to determine uric acid and ascorbic acid in a mixture and resolved the overlapping anodic peaks of these two species into two well-defined voltammetric peaks in cyclic voltammetry at 0.030 V and 0.320 V (vs. Ag/AgCl) for ascorbic acid and uric acid, respectively. The modified electrode exhibited stable and sensitive current responses toward uric acid and ascorbic acid. The method has successfully been applied for determination of uric acid in urine samples.     

A glassy carbon electrode modified with antimony and poly(p-aminobenzene sulfonic acid) for sensing lead(II) by square wave anodic stripping voltammetry

We have developed a sensor for the square wave anodic stripping voltammetric determination of Pb(II). A glassy carbon electrode was modified with a thin film of an antimony/poly(p-aminobenzene sulfonic acid) composite in air-saturated aqueous solution of pH 2.0. Compared to a conventional antimony film electrode, the new one yields a larger stripping signal for Pb(II). The conditions of polymerization, the concentration of Sb(III), the pH value of the sample solution, the deposition potential and time, frequency, potential amplitude, and step increment potential were optimized. Under the optimum conditions, a linear response was observed for Pb(II) in the range of 0.5 to 150.0 μg?L^?1. The detection limit for Pb(II) is 0.1 μg?L^?1.

Surface modification of a planar electrochemical microcell

The fabrication of a three-electrode electrochemical microcell in which the working electrode is selectively modified with poly (vinylferrocene) (PVFer) is described for use as a chemical sensor. The microcell was characterized by cyclic voltammetric and differential-pulse voltammetric techniques and the behaviour of the PVFer-modified platinum electrode in contact with 0.1 M KCl is reported. The mediating properties of the PVFer film are demonstrated for this cell by using the oxidation of ascorbic acid, a process which is shown to be slow at the corresponding bare platinum microelectrode.     

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。     

聚对氨基苯磺酸/石墨烯复合修饰电极对尿酸的选择性灵敏测定

采用电聚合方法在石墨烯纳米片(GN)的表面聚合一层聚对氨基苯磺酸(PABSA),制备了聚对氨基苯磺酸/石墨烯复合修饰玻碳电极(PABSA/GN/GCE)。研究了尿酸(UA)和抗坏血酸(AA)在该修饰电极上的电化学行为。与聚对氨基苯磺酸修饰电极(PABSA/GCE)及石墨烯单层膜修饰电极(GN/GCE)相比,复合修饰电极PABSA/GN/GCE显著提高了对UA和AA的检测灵敏度和分离度。在0.1 mol/L磷酸盐缓冲溶液(pH7.0)中,UA和AA的峰电位差达344 mV,表明PABSA/GN/GCE能实现对UA的选择性测定。UA的峰电流与其浓度呈良好的线性关系,线性范围为1.0×10-7～8.0×10-4mol/L,检出限为4.5×10-8mol/L。该复合修饰电极用于尿样中尿酸的测定,结果满意。     

Determination of chromium(VI) and total chromium in water by in-electrode coulometric titration in a porous glassy carbon electrode

Chromium(VI) is determined through its direct electrochemical reduction in the bulk of a porous glassy carbon electrode. An electrode filled with the acidified sample and Cr(VI) is reduced by means of a constant current whereas the potential of the electrode is monitored. The limits of detection and quantification were found to be 1.9 and 6.0 μg · L⁻¹, resp. The linear range, repeatability and reproducibility were found to be 5–500 μg · L⁻¹, 1.2, and 1.8%, resp. The influence of Fe(III), Ca(II), Mg(II), sulphates, nitrates, humic acids and surfactants was investigated. Total chromium was measured after chemical oxidation of Cr(III) to chromate by permanganate. The method was applied to analyses of water samples.     

A selective and sensitive film for electrocatalysis of ascorbic acid based on polypyrrole doped with nitroso-R(1-nitroso-2-naphthol-3,6-disulfonic acid disodium)

An electrocatalytic detection of ascorbic acid on a nitroso-R modified polypyrrole electrode has been studied. This functionalized polypyrrole film was electropolymerized by constant potential method on a platinum electrode from solution including pyrrole as monomer and nitroso-R as anionic dopant. Electrocatalytic currents of ascorbic acid were linearly dependent on its concentration in the range of 0.12–18.54 mM, with detection limit and relative standard deviation of 0.02 mM and 1.32%, respectively. This modified electrode can be used for determination of ascorbic acid in various pharmaceutical samples. Also, electrochemical behavior of this system was studied by various methods (RDE voltammetry, chronoamperometry, hydrodynamic amperometry and cyclic voltammetry).     

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。     

Determination of Uric Acid in the Presence of Ascorbic Acid Using Poly(3,4‐ethylenedioxythiophene)‐Modified Electrodes

A poly(3,4‐ethylenedioxythiophene) (PEDOT) modified glassy carbon electrode (GCE) was used to determine uric acid in the presence of ascorbic acid at physiological pH facilitating a peak potential separation of ascorbic acid and uric acid oxidation (ca. 365 mV), which is the largest value reported so far in the literature. Also, an analytical protocol involving differential pulse voltammetry has been developed using a microchip electrode for the determination of uric acid in the concentration range of 1 to 20 μM in presence of excess of ascorbic acid.     

Selective detection of dopamine with poly(diphenylamine sulfonic acid) modified electrode in the presence of ascorbic acid

A glassy carbon electrode was modified with electropolymerized film of diphenylamine sulfonic acid (DPASA). Electropolymerization was performed by cyclic voltammetry in 0.1 M KCl solution. The modified electrode showed an excellent electrocatalytic effect towards oxidation of dopamine (DA) and ascorbic acid (AA). Electrostatic interaction between the negatively charged poly(DPASA) film and either cationic DA species or anionic AA species favorably contributed to the redox response of DA and AA. Anodic peaks of DA and AA in their mixture were well separated by ca 168 and −11.8 mV. The proposed modified electrode was utilized for selective determination of dopamine in the concentration range of 5.0 × 10^t7–2.0 × 10⁻⁵ M in the presence of high concentration of ascorbic acid. Detection limit was 6.5 × 10⁻⁹ M.     

Enhanced sensing of dopamine in the present of ascorbic acid based on graphene/poly(p-aminobenzoic acid) composite film

Graphene/p-aminobenzoic acid composite film modified glassy carbon electrode (Gr/p-ABA/GCE) was first employed for the sensitive determination of dopamine (DA). The electrochemical behavior of DA at the modified electrode was investigated by cyclic voltametry (CV), differential pulse voltametry (DPV) and amperometric curve. The oxidation peak currents of DA increased dramatically at Gr/p-ABA/GCE. The modified electrode was used to electrochemically detect dopamine (DA) in the presence of ascorbic acid (AA). The Gr/p-ABA composite film showed excellent electrocatalytic activity for the oxidation of DA in phosphate buffer solution (pH 6.5). The peak separation between DA and AA was large up to 220 mV. Using DPV technique, the calibration curve for DA determination was obtained in the range of 0.05-10 μM. The detection limit for DA was 20 nM. AA did not interfere with the determination of DA because of the very distinct attractive interaction between DA cations and the negatively Gr/p-ABA composite film. The proposed method exhibited good stability and reproducibility.     

Simultaneous determination of dopamine, ascorbic acid and uric acid at poly (Evans Blue) modified glassy carbon electrode

A sensitive and selective electrochemical method for the determination of dopamine using an Evans Blue polymer film modified on glassy carbon electrode was developed. The Evans blue polymer film modified electrode shows excellent electrocatalytic activity toward the oxidation of dopamine in phosphate buffer solution (pH 4.5). The linear range of 1.0 x 10(-6)-3.0 x 10(-5) M and detection limit of 2.5 x 10(-7) M were observed in pH 4.5 phosphate buffer solutions. The interference studies showed that the modified electrode exhibits excellent selectivity in the presence of large excess of ascorbic acid and uric acid. The separation of the oxidation peak potentials for dopamine-ascorbic acid and dopamine-uric acid were about 182 mV and 180 mV, respectively. The differences are large enough to determine AA, DA and UA individually and simultaneously. This work provides a simple and easy approach to selectively detect dopamine in the presence of ascorbic acid and uric acid in physiological samples.     

聚萘胺膜与金属离子的络合及催化特性的研究

系统研究了聚萘胺膜与Ａｇ、Ｈｇ（２＋）等十余种金属离子的络合特性。以循环伏安法、交流阻抗分析等方法研究了Ａｇ－ＰＮＡ电极对抗坏血酸（Ｈ２Ａ）氧化的催化作用，提出了电极反应的可能机理。Ａｇ－ＰＮＡ电极可用于测定试样中的Ｈ２Ａ含量。