Sensitive adsorptive stripping voltammetric procedure of Imatinib determination in spiked urine samples using solid lead microelectrode

This article reports for the first time the application of solid lead microelectrode for organic compound determination. The proposed sensor was used for anticancer drug Imatinib quantification by adsorptive stripping voltammetry. Procedure of Imatinib determination was developed utilizing advantages ensured by solid lead microelectrode: reusability and durability for a long period of time and its ecological character as compared to film electrodes. The detection limit of Imatinib determination was calculated to be 1.9 × 10⁻¹⁰ mol L⁻¹. The analytical usability of the developed procedure was confirmed by acceptable recoveries of Imatinib determination in spiked urine samples.     

Electrocatalysis and Amperometric Detection of Hydrogen Peroxide at an Aluminum Microelectrode Modified with Cobalt Hexacyanoferrate Film

 The electrocatalytic activity of an aluminum microelectrode modified with cobalt hexacyanoferrate film is described. A simple method was used for the preparation of the modified microelectrode. The modified microelectrode exhibits good electrocatalytic properties for electrochemical reduction of hydrogen peroxide. The effect of solution pH and applied potential on the electrocatalytic properties of the modified microelectrode is investigated. The results show that the best potential for the detection of hydrogen peroxide is 0.0 vs. SCE for better response and decrease of interferences. Due to the microelectrode scale, it can be used for the determination of small amounts of H₂O₂. The calibration plot is linear up to 1.7 mM (r = 0.988) with a response time of 5.1 s. The detection limit of the microelectrode as H₂O₂ sensor is 2 × 10⁻⁷ M. The sensivity of the H₂O₂ sensor is 225.6 nA mmol⁻¹ and RSD of this sensor is less than 2.3%. In addition, effects of possible interferences and possibility of the sensor for real samples is investigated. The present work shows the potential of the proposed method for the fabrication of modified electrodes, as it can be used to employ for different purposes in micro scale. Received June 20, 2001; accepted June 14, 2002     

Bulk acoustic wave sensor using molecularly imprinted polymers as recognition elements for the determination of pyrimethamine

A new bulk acoustic wave (BAW) sensor modified with a molecularly imprinted polymer (MIP) was fabricated and applied for the determination of pyrimethamine. This sensor exhibited high selectivity and sensitive response to pyrimethamine. Factors such as pH and the amount of coating influencing sensor properties, were investigated in detail and optimized. The calibration curve was linear in the range 6.0x10(-7)-1.0x10(-4) M. The determination limit was 2.0x10(-7) M. In harsh chemical environments such as high temperature, organic solvents, bases, acids, etc., the sensor still exhibited long-term stability. The proposed method has been satisfactorily applied for the determination of pyrimethamine in serum and urine media.     

Determination of Gentian Violet in human urine and poultry feed by high performance liquid chromatography with electrochemical detection using a carbon fibre microelectrode flow cell

A sensitive and relatively selective high performance liquid chromatographic method for the determination of Gentian Violet (GV) in human urine and chicken feed is described. The method is based on solid-phase extraction, with subsequent reversed-phase chromatographic separation on a cyano column and amperometric detection using a carbon fibre microelectrode flow cell operated at + 1.3 V. The peak currents were directly proportional to GV concentration over the concentration range 1-30 ppb (for urine samples analysis) and 1-20 ppm for poultry feed analysis. Using this method, the minimum detectable concentration was estimated to be 0.5 ppb. The method was applied successfully to the determination of GV in human urine and in chicken feed, and it was concluded that the method could be applied to the quantitative analysis of GV in the presence of its major metabolite, leuco GV. In the proposed procedure, the occurrence of matrix effects during urine analysis was significant. The electrochemical pretreatment regime described in this paper was used to overcome these effects. Recovery studies were performed on both the human urine and chicken feed samples. The recovery of GV ranged from 92 to 96% in both matrices, with a relative standard deviation of less than 5.5%.     

Sensitive and Selective Voltammetric Determination of Ciprofloxacin Using Screen-printed Electrodes Modified with Carbon Black and Magnetic-molecularly Imprinted Polymer

This work reports the construction of screen-printed electrode (SPE) modified with carbon black (CB) and magnetic Fe₃O₄ nanoparticles coated with molecularly imprinted polymer (mag@MIP) based on an alternative low-cost approach. The proposed device was used for the sensitive and selective voltammetric determination of the antibiotic ciprofloxacin. The results obtained from cyclic voltammetry pointed to the improvement of the SPE response toward the irreversible oxidation of ciprofloxacin after the modification of the electrode surface with CB-based film and the magnetic preconcentration of mag@MIP containing adsorbed ciprofloxacin molecules. Compared to the non-molecularly imprinted sensor (mag@NIP), the presence of cavities selective for ciprofloxacin recognition in the mag@MIP nanoparticles accounted for the improvement in analytical signal of the molecularly imprinted sensor. The application of differential pulse voltammetry for ciprofloxacin determination yielded a linear response in the concentration range of 0.5 to 7.0 μmol L⁻¹. The repeatability and interference tests results showed that the proposed electrochemical sensor has good measurement accuracy and selectivity. The proposed device was applied for the voltammetric determination of ciprofloxacin in river water and synthetic urine samples, where recovery rates close to 100 % were recorded for all the samples. The quantification data obtained from the application of the proposed voltammetric method were quite consistent with those of the HPLC reference method.     

Chemiluminescence assay for uric acid in human serum and urine using flow-injection with immobilized reagents technology

A novel chemiluminescence (CL) flow sensor for the determination of uric acid in human urine and serum has been developed by using controlled-reagent-release technology. The reagents involved in the chemiluminescence (CL) reaction, luminol and periodate, are immobilized on anion-exchange resin packed in a column. After injection of water, chemiluminescence generated by released luminol and periodate in alkaline media is inhibited in presence of uric acid. By measuring the decreased chemiluminescence (CL) intensity the uric acid is sensed. The decreased response is linear in the 5.0-500.0 ng mL(-1) range, with a detection limit of 1.8 ng mL(-1). The flow sensor showed remarkable operational stability and could be easily reused for over 80 h with sampling frequency of 100 h(-1). The proposed sensor was applied to the determination of uric acid in human urine and serum, and monitoring metabolic uric acid in human urine with RSD less than 3.0%.     

Chitosan coated carbon fiber microelectrode for selective in vivo detection of neurotransmitters in live zebrafish embryos

We report the development of a chitosan modified carbon fiber microelectrode for in vivo detection of serotonin. We find that chitosan has the ability to reject physiological levels of ascorbic acid interferences and facilitate selective and sensitive detection of in vivo levels of serotonin, a common catecholamine neurotransmitter. Presence of chitosan on the microelectrode surface was investigated using scanning electron microscopy (SEM) and cyclic voltammetry (CV). The electrode was characterized using differential pulse voltammetry (DPV). A detection limit of 1.6 nM serotonin with a sensitivity of 5.12 nA/μM, a linear range from 2 to 100 nM and a reproducibility of 6.5% for n=6 electrodes were obtained. Chitosan modified microelectrodes selectively measure serotonin in presence of physiological levels of ascorbic acid. In vivo measurements were performed to measure concentration of serotonin in the live embryonic zebrafish intestine. The sensor quantifies in vivo intestinal levels of serotonin while successfully rejecting ascorbic acid interferences. We demonstrate that chitosan can be used as an effective coating to reject ascorbic acid interferences at carbon fiber microelectrodes, as an alternative to Nafion, and that chitosan modified microelectrodes are reliable tools for in vivo monitoring of changes in neurotransmitter levels.     

Development of a Pt modified microelectrode aimed for the monitoring of ammonium in solution

The development of selective and sensitive analytical methods for ammonium detection is important for the evaluation of the environmental effects of water pollution and the understanding of nitrogen cycling in ecosystems. In the current study, a new Pt nanoparticle microelectrode with high selectivity, sensitivity, accuracy and anti-interference capacity was successfully prepared for the quantitative measurement of ammonia concentration in artificial and real wastewater samples. The prepared Pt nanoparticle microelectrode had a selectively electrochemical catalytic oxidation activity for ammonium. Ammonium oxidation peak current presented a linear correlation with ammonium concentrations in artificial and real wastewater samples. Ammonium response was 92% of the initial value after 120 measurements, indicating that the prepared microelectrode is reliable and stable as an ammonium sensor. The lifetime of the modified microelectrode was of at least 150 days at room temperature and of at least 500 repetitive measurements. The present method is a simple way of preparing an ammonium sensor with very good reproducibility. Moreover, the proposed electrochemical method has been validated by comparing the obtained results of the analysis of ammonium in artificial and real wastewater samples with those obtained from spectrophotometry.     

妥拉苏林分子印迹膜传感器的制备及识别特性研究

用电聚合的方法在金电极上制备了以妥拉苏林为模板分子的自组装邻氨基硫酚分子印迹膜传感器.通过差分脉冲伏安法研究传感器对妥拉苏林的响应特性,结果表明在优化的实验条件下,此传感器的峰电流响应值与妥拉苏林浓度在0.4～5μg·mL-1(r=0.9986)和5～120μg·mL-1(r=0.9953)范围内保持良好的线性关系,检测限为0.18μg·mL-1;相对标准偏差约为2.47%,响应时间约为3min.传感器具备较好的选择性和稳定性,初步用于人体尿液中妥拉苏林的分析,获得了较满意的结果.     

Determination of traces of hemoglobin by square wave stripping voltammetry at a silver microelectrode

An electrochemical method was developed for the determination of traces of hemoglobin (Hb) by adsorption square wave voltammetric stripping at a bare silver microelectrode. Under optimum conditions the proposed method provided a linear response over the hemoglobin concentration range 5 to 100 nmol/L. The detection limit was 3 nmol/L. The relative standard deviation was 4.5% for 6 successive determinations at 50 nmol/L Hb. Other chemicals present in the sample did not interfere.     

Determination of salbutamol using R-phycoerythrin immobilized on eggshell membrane surface as a fluorescence probe

A fluorescence sensor was fabricated using R-phycoerythrin (R-PE) immobilized on eggshell membrane as the fluorescence probe, and salbutamol was determined based on the decrease in fluorescence intensity of R-phycoerythrin. The scanning electron and fluorescence micrographs showed the microstructure of the eggshell membrane and indicated that the R-PE was successfully immobilized on the eggshell membrane surface. The effects of some experimental parameters on the response of the biosensor were investigated in detail. The fluorescence sensor has a linear response to salbutamol concentrations ranging from 5.00 to 100 ng mL⁻¹. The detection limit for the salbutamol is 3.50 ng mL⁻¹ (S/N = 3). The reproducibility of fabricating the biosensors using six different membranes was good with a relative standard deviation (RSD) of 3.28%. The fluorescence sensor showed extremely good stability with a shelf life of at least 50 days and reversible response to salbutamol. Some common potential interferents showed little effect on the response of the salbutamol fluorescence sensor. The proposed method was successfully applied to the determination of the salbutamol in urine samples.     

基于分子印迹电聚合膜的褪黑素传感器的研究

在弱酸条件下,以邻苯二胺为功能单体,褪黑素为模板,以电化学聚合物法在铂电极表面合成了性能稳定的褪黑素分子印迹聚合物膜.采用循环伏安法(CV)和差分脉冲法(DPV)对分子印迹传感器的识别性能进行了研究.结果表明:此传感器对褪黑素具有快的响应、良好的选择性和高的灵敏度.以K3Fe(CN)6为电子传递媒介,建立了一种差分脉冲伏安法(DPV)间接检测褪黑素的分析方法.在1×10-10～1×10-8 moL/L范围内,褪黑素的浓度与K3Fe(CN)6的相对峰电流变化呈良好的线性关系;检出限为1×10-11 mol/L(S/N=3).将此传感器应用于复合褪黑素及尿样中褪黑素含量的测定,加标平均回收率大于94％.     

Development of a flow-through optosensor for determination of Co(II)

A flow-through optical fibre chemical sensor for the determination of Co(II) at trace level using immobilised 2-(4-pyridylazo)resorcinol (PAR) as the reagent phase is proposed. PAR is physically adsorbed onto XAD-7. This method provided a great sensitivity and simplicity with wide linear response range from 1x10(-2) to 1x10(3)ppm and detection limit of 20ppb. This method also showed a reproducible result with relative standard deviation (R.S.D.) of 1.78% and response time of approximately 5min. The response towards Co(II) was also reversible using acidified KCl as the regenerating solution. Interference studies showed that Cr(III) significantly interfered during the determination. Excellent agreement with reference to inductively coupled plasma optical emission spectroscopy (ICPOES) method was achieved when the developed sensor was applied for determination of Co(II) in aqueous samples.     

Attachment of DNA to the carbon fiber microelectrode via gold nanoparticles for simultaneous determination of dopamine and serotonin.

A novel biochemical sensor was fabricated on a carbon fiber microelectrode, which consisted of an inner layer of electrodeposited gold nanoparticles, as a nano-array electrode, and an outer layer of electrodeposited calf thymus ds-DNA at +1.5 V vs. SCE. This modified electrode was characterized by X-ray photoelectron spectroscopy, scanning electron microscope, atomic force microscopy, cyclic voltammetry and differential pulse voltammetry (DPV). It was found that this electrochemical sensor exhibits a strong catalytic activity toward the oxidation of dopamine (DA), serotonin (5-HT) and ascorbic acid (AA), as a result of resolving the anodic voltammetric peaks of DA, 5-HT and AA into three well-defined peaks. Simutaneous DPV determination of DA and 5-HT can be achieved in the presence of 2000-fold AA. The modified electrode shows good sensitivity, selectivity and stability.     

Application of a Tetraamino Cobalt(II) Phthalocyanine Modified Screen Printed Carbon Electrode for the Sensitive Electrochemical Determination of L-Dopa in Pharmaceutical and Biological Samples

A novel synthesized tetraamino cobalt(II) phthalocyanine monomer was used for the fabrication of a sensor by electrochemical polymerization. A disposable electrochemical sensor based on the use of a screen printed carbon electrode covered with an electropolymerized film of tetraamino cobalt(II) phthalocyanine for the determination of L-dopa in pharmaceutical tablets and biological samples was described. Cyclic voltammetry and electrochemical impedance spectroscopy were performed for the characterization of the bare and modified electrode. For the electrochemical detection of L-dopa differential pulse voltammetry was used. The proposed method exhibits a good response towards electrooxidation of L-dopa in the linear concentration range: from 0.1 to 1000.0 μmol L⁻¹ in BRB pH=2.0, with a detection limit of 0.03 μmol L⁻¹ and from 1 to 1000 μmol L⁻¹ in PBS pH=7.4, with a detection limit of 0.33 μmol L⁻¹. Due to the fact that the developed sensor was applied in two different types of real samples, two buffer media were used, BRB pH=2.0 for pharmaceutical and urine samples and PBS pH=7.4 for whole blood samples. The proposed pCoTAPc/SPCE was successfully applied for the determination of L-dopa in pharmaceutical tablets, urine and in whole blood samples with satisfactory results.     

An Asymetric Lutetium(III) Microsensor Based on N‐(2‐Furylmethylene) Pyridine‐2,6‐Diamine for Determination of Lutetium(III) Ions

Abstract

In this work, for the first time, we introduce a highly selective and sensitive lutetium(III) micro‐sensor. N‐(2‐furylmethylene) pyridine‐2,6‐diamine (FPD) was used as a membrane‐active component to prepare a highly sensitive Lu(III)‐selective polymeric membrane microelectrode. Theoretical calculations for FPD, lutetium and some other metal ions were carried out and selectivity toward Lu(III) ions was confirmed. The best performance was achieved by a membrane composed of 32% PVC, 60% o‐nitrophenyloctyl ether, 4% potassium tetrakis (p‐chlorophenyl) borate (KTpClPB) and 4% FPD. The electrode exhibits a Nernstian response for Lu(III) ions over a particular concentration range (1.0×l0^?11?1.0×10^?6 mol l^?1) with a slope of 20.5±0.2 mV decade^?1. The detection limit is 3.0×10^?11 mol l^?1 while the sensor presents a response time of <10 s and a useful working pH range of 4.0–10.5. As a matter of fact, the proposed sensor discriminates relatively well for Lu(III) ions in compare to common alkali, alkaline earth, heavy metals and, specially, lanthanide ions. The sensor was successfully applied as an indicator electrode in a potentiometric titration of Lu(III) ions with EDTA. In addition, it was used for determination of lutetium in some soil samples where domestic devices were stored. The proposed sensor was evaluated for Lu(III) ions determination in some binary mixtures.     

Current Response and Determination of Traces of Coenzyme I At a Silver Microelectrode

Abstract

A useful current response of nicotinamide coenzyme I at a silver microelectrode was obtained and, therefore, an electrochemical method has been developed for the determination of traces of the coenzyme by square wave adsorption stripping voltammetry. Under optimum conditions the proposed method provides a linear response over the coenzyme concentration in the range of 0.5～7.5 μmol/L. The detection limit was 0.2 μmol/L. The relative standard deviation was 3.5% for 6 successive determinations of the coenzyme at 1.0 μmol/L. In view of the merits of the electrochemical techniques and this microelectrode, this method will be of great usefulness in the biochemical and clinical fields in the future.     

Fluorescent Determination of Mercury(II) Using Rhodamine B Immobilized on Polystyrene Microspheres

A novel microsphere-based fluorescent sensor 1 for determination of Hg(II) in food samples has been successfully synthesized and its fluorescent sensing properties were investigated in detail. Polystyrene microsphere was innovatively surface modified by a rhodamine derivative; therefore sensor 1 was a fluorescent sensor with high polymer material properties of polystyrene and the optical properties of a fluorescent probe. Sensor 1 displayed high selectivity, good anti-interference performance, and instantaneous response to Hg(II). The fluorescence intensity of sensor 1 showed a linear response to Hg(II) in the concentration range of 0?µM to 8?µM with a detection limit of 0.439?µM. The most valuable advantage was that sensor 1 was recyclable and environmentally-friendly. This proposed sensor 1 was applied to monitor the content of Hg(II) in real food samples, such as tap water, rice, and anglerfish. The recovery range of tap water was from 92.60 to 105.80%, the recovery range of rice was from 90.45 to 106.10%, and the recovery range of anglerfish was from 91.30 to 105.84%. The relative error was below 10% in spiked recovery studies, suggesting that fluorescent sensor 1 provides a simple, efficient, and promising method for determination of Hg(II) in complex matrices.     

Development and Characterization of an Electrochemical Sensor for Cinchonidine Detection Based on Molecularly Imprinted Polymer with Modified Rosin as Cross-linker

Molecularly imprinted polymers(MIPs) were applied as molecular recognition elements to an electrochemical sensor for cinchonidine(CD). A kind of MIP was synthesized with cinchonidine as template, modified rosin( ethylene glycol maleic rosinate acrylate) containing the skeleton of phenanthrene rings as cross-linker and methylacrylic acid as functional monomer. MIP membrane was prepared on a glassy carbon electrode for the determination of CD via free radical polymerization method. Electrochemical impedance spectroscopy(EIS) and cyclic voltammetry( CV) were used to characterize the membrane electrochemical behavior in electrode fabrication process. The experimental conditions were discussed. Under optimum conditions, it was found that the response of peak currents was linear to the concentration of CD in a range of 0.013―2.26 mmol/L. The detection limit for CD is 1 μmol/L, the relative standard deviation for 100 μmol/L CD is 1.34% and the incubation time is 2 min. The sensor was applied to the determination of CD in urine samples with satisfactory results.     

Graphene Quantum Dots Modified Screen‐printed Electrodes as Electroanalytical Sensing Platform for Diethylstilbestrol

In present work a simple methodology for electroanalytical sensing of diethylstilbestrol (DES) using graphene quantum dots (GQD) surface modified screen‐printed electrodes (SPE) is reported. GQD was synthesized by simple bottom‐up method based on citric acid pyrolysis at 200 °C and electrodeposited directly at electrode surface under cyclic voltammetric conditions. The obtained GQD presented an average diameter of 7 nm and was characterized by techniques such as transmission and scanning electron microscopy, and electrochemical impedance spectroscopy. The proposed sensor exhibits a linear response from 0.05 to 7.5 μmol L^?1, with limit of detection and quantification of 8.8 nmol L^?1 and 29.0 nmol L^?1, respectively. The repeatability study presented RSD=3.6 % for 6 consecutive measurements using the same electrode surface and the reproducibility study showed RSD=6.6 % for measurements with 6 different electrode surfaces. The proposed sensor was successfully applied for DES determination in synthetic urine and tap water spiked samples and good recoveries were obtained without any sample pre‐treatment, showing its promising analytical performance.