A promising nanotechnological material, zirconia nanoparticles modified with SiO2, was used as a medium for the immobilization of laccase to construct a novel biosensor that exhibits sensitive amperometric response to catechol in 0.1 mol · L?1 phosphate buffer (pH 6.0) using cyclic voltammetry. The linear response to catechol was from 1.0 × 10?6 to 1.0 × 10?4 mol · L?1 and the detection limit was 3.5 × 10?7 mol · L?1 at a signal-to-noise ratio of 3. The biosensor exhibited good stability, precision, and few interferences. 相似文献
This paper reported a simple method for sulfanilamide determination by redox process electroanalysis of oxidation products (SFDox) formed in situ on glassy carbon electrode. The CV experiments showed a reversible process after applied Eacc = + 1.06 V and tacc = 1 s, in 0.1 mol L?1 BRBS (pH = 2.0) at 50 mV s?1. Different voltammetric scan rates (from 10 to 450 mV s?1) suggested that the redox peaks of SFDox on the glassy carbon electrode (GCE) is an adsorption-controlled process. Square-wave voltammetry (SWV) method optimized conditions showed a linear response to SFD from 3.00 to 250.0 μmol L?1 (R = 0.998) with a limit of detection of 0.638 μmol L?1 and limit of quantification of 2.0 μmol L?1. The developed the SWV method was successfully used in the determination of SFD pharmaceutical formulation and human serum. The SFD quantification results in pharmaceutical obtained by SWV-GCE were comparable to those found by official analytical protocols. 相似文献
A procedure was developed for the determination of polyethylene glycol monoester acrylate (PEGMA) and polyethylene glycol diester acrylate (PEGDA) by reversed-phase high performance liquid chromatographic (RP-HPLC) with UV detector. Sample was well separated on an SinoChrom ODS-BP (C-18) column (200 × 4.6 mm i.d., 5 μm) with mobile phases composed of acetonitrile-phosphate buffer solution (0.05 mol · L?1 pH = 6.86) in the ratio of 42:58 (v/v). The PEGMA and PEGDA were detected by UV detector at 205 nm, and quantitatively analyzed with an external standard of methyl acrylate. For PEGMA, the linear response ranged from 0.40 × 10?5 mol · L?1 to 2.00 × 10?3mol · L?1 (r2 > 0.999), the detection limit was 0.12 × 10?5 mol · L?1, the recovery rate was found to be 93.4%–99.7%. For PEGDA, the linear response ranged from 0.20 × 10?5 mol · L?1 to 1.00 × 10?3mol · L?1 (r2 > 0.999), the detection limit was 0.04 × 10?5 mol · L?1, the recovery rate was found to be 99.1% ~ 105.8%. This quantitative method can also be used in the HPLC analysis of other α,β-unsaturated esters. 相似文献
A novel platform for electroanalysis of isoniazid based on graphene-functionalized multi-walled carbon nanotube as support for iron phthalocyanine (FePc/f-MWCNT) has been developed. The FePc/f-MWCNT composite has been dropped on glassy carbon forming FePc/f-MWCNT/GC electrode, which is sensible for isoniazid, decreasing substantially its oxidation potential to +200 mV vs Ag/AgCl. Electrochemical and electroanalytical properties of the FePc/f-MWCNT/GC-modified electrode were investigated by cyclic voltammetry, electrochemical impedance spectroscopy, scanning electrochemical microscopy, and amperometry. The sensor presents better performance in 0.1 mol L?1 phosphate buffer at pH 7.4. Under optimized conditions, a linear response range from 5 to 476 μmol L?1 was obtained with a limit of detection and sensitivity of 0.56 μmol L?1 and 0.023 μA L μmol?1, respectively. The relative standard deviation for 10 determinations of 100 μmol L?1 isoniazid was 2.5%. The sensor was successfully applied for isoniazid selective determination in simulated body fluids. 相似文献
A new voltammetric sensor based on electropolymerization of glycine at glassy carbon electrode (GCE) was developed and applied to determine of pyrazinamide (PZA) by square-wave voltammetry (SWV). The initial cyclic voltammetric studies showed an electrocatalytic activity of poly(Gly)/GCE on redox system of pyrazinamide in 0.1 mol L?1 phosphate buffer solution pH 7.5, with EPc and EPa in ?0.85 and ?0.8 V (versus EAg/AgCl), respectively. Studies at different scan rates suggest that the redox system of pyrazinamide at poly(Gly)/GCE is a process controlled by diffusion in the interval from 10 to 100 mV s?1. Square-wave voltammetry-optimized conditions showed a linear response of PZA concentrations in the range from 0.47 to 6.15 μmol L?1 (R?=?0.998) with a limit of detection (LOD) of 0.035 μmol L?1 and a limit of quantification (LOQ) of 0.12 μmol L?1. The developed SWV-poly(Gly)/GCE method provided a good intra-day (RSD?=?3.75 %) and inter-day repeatability (RSD?=?4.96 %) at 4.06 μmol L?1 PZA (n?=?10). No interference of matrix of real samples was observed in the voltammetric response of PZA, and the method was considered to be highly selective for the compound. In the accuracy test, the recovery was found in the range of 98.2 and 104.0 % for human urine samples and pharmaceutical formulation (tablets). The PZA quantification results in pharmaceutical tablets obtained by the proposed SWV-poly(Gly)/GCE method were comparable to those found by official analytical protocols. 相似文献
Abstract The electrooxidative behavior of citalopram (CTL) in aqueous media was studied by cyclic voltammetry (CV) and square-wave voltammetry (SWV) at a glassy-carbon electrode. The electrochemical behaviour of CTL involves two electrons and two protons in the irreversible and diffusion controlled oxidation of the tertiary amine group. The maximum analytical signal was obtained in a phosphate buffer (pH = 8.2). For analytical purposes, an SWV method and a flow-injection analysis (FIA) system with amperometric detection were developed. The optimised SWV method showed a linear range between 1.10 × 10?5–1.20 × 10?4 mol L?1, with a limit of detection (LOD) of 9.5 × 10?6 mol L?1. Using the FIA method, a linear range between 2.00 × 10?6–9.00 × 10?5 mol L?1 and an LOD of 1.9 × 10?6 mol L?1 were obtained. The validation of both methods revealed good performance characteristics confirming applicability for the quantification of CTL in several pharmaceutical products. 相似文献
Imipramine (IMP), a tricyclic antidepressant drug, is commonly prescribed for treatment of psychiatric patients suffering from different forms of depression. The appropriate amount of drug intake is crucial to ensure the optimum therapeutic effects minimizing severe collateral effects and toxicity. Therefore, the monitoring of imipramine is essential for its clinical applications. Herein, we report an electrochemical sensor based on a composite of ferrocenecarboxylic acid (FCA), β-cyclodextrin (CD), and oxidized multi-walled carbon nanotubes (f-CNT) modified glassy carbon electrode for detection of IMP at low potential. The electrochemical behavior of the proposed sensor was characterized by scanning electron microscopy, Raman spectroscopy, and cyclic voltammetry. The results show that imipramine determination using the proposed sensor occurs around 0 V vs Ag/AgCl in phosphate buffer pH 7.0. The calibration curves were obtained by cyclic voltammetry and differential pulse voltammetry, with linear ranges of 10 to 350 μmol L?1 and 0.1 to 10 μmol L?1, respectively. A detection limit of 0.03 μmol L?1 was obtained for the detection of IMP. The sensor was applied for IMP determination in psychotropic drugs and urine samples and the results show a recovery percentage between 99 and 101% for the analyte. 相似文献
A novel biosensor by electrochemically codeposited Pt nanoclusters and DNA film was constructed and applied to detection of dopamine (DA) and uric acid (UA) in the presence of high concentration ascorbic acid (AA). Scanning electron microscopy and X‐ray photoelectron spectroscopy were used for characterization. This electrode was successfully used to resolve the overlapping voltammetric response of DA, UA and AA into three well‐defined peaks with a large anodic peak difference (ΔEpa) of about 184 mV for DA and 324 mV for UA. The catalytic peak current obtained from differential pulse voltammetry was linearly dependent on the DA concentration from 1.1× 10?7 to 3.8×10?5 mol·L?1 with a detection limit of 3.6×10?8 mol·L?1 (S/N=3) and on the UA concentration from 3.0×10?7 to 5.7×10?5 mol·L?1 with a detection limit of 1.0×10?7 mol·L?1 with coexistence of 1.0×10?3 mol·L?1 AA. The modified electrode shows good sensitivity and selectivity. 相似文献
Fe3O4 magnetic nanoparticles were synthesized by chemical co-precipitation with sodium citrate as a surfactant and were used with chitosan to construct a novel hydrogen peroxide sensor. The electrochemical behavior of hydrogen peroxide at the sensor was investigated by cyclic voltammetry. The composite film electrocatalyzed the reduction of hydrogen peroxide, and the peak current increased linearly with concentration from 1.00 × 10?5 to 1.00 × 10?3 mol · L?1 (R = 0.9974) with a detection limit of 1.53 × 10?6 mol · L?1. This novel nonenzyme sensor provided good sensitivity, stability, and precision with potential applications. 相似文献
An electrochemical sensor for theophylline (ThPh) was prepared by electropolymerizing o-phenylenediamine on a glassy carbon electrode in the presence of ThPh via cyclic voltammetry, followed by deposition of gold nanoparticles using a potentiostatic method. The effects of pH, ratio between template molecule and monomer, number of cycles for electropolymerization, and of the solution for extraction were optimized. The current of the electro-active model system hexacyanoferrate(III) and hexacyanoferrate(IV) decreased linearly with successive addition of ThPh in the concentration range between 4.0?×?10?7?~?1.5?×?10?5 mol·L?1 and 2.4?×?10?4?~?3.4?×?10?3 mol·L?1, with a detection limit of 1.0?×?10?7 mol·L?1. The sensor has an excellent recognition capability for ThPh compared to structurally related molecules, can be regenerated and is stable.
Figure
In this paper, an electrochemical sensor for theophylline (ThPh) was prepared by electropolymerizing o-phenylenediamine (o-PD) on a glassy carbon electrode in the presence of ThPh via cyclic voltammetry, followed by deposition of gold nanoparticles to enhance the sensitivity of the sensor. Therefore, the sensor showed a high sensitivity for ThPh determining. Peak current of [Fe(CN)6]3?/[Fe(CN)6]4? varied linearly with the concentration of ThPh in the range of 4.0×10-7~1.5×10-5 mol·L-1 and 2.4×10-4~3.4×10-3 mol·L-1, and the detection limit reached 1.0×10-7 mol·L-1. Compared to structurally related molecules, the sensor also has a high recognition capability for ThPh. With excellent regeneration property and stability, the present sensor maybe provides a new class of polymer modified electrodes for sensor applications. 相似文献
Abstract This work demonstrates the electrochemical behavior of the 1-phenyl-3-methyl-4-(α-furoyl)-pyrazolone-5 (HPMαFP) modified glassy carbon electrode (HPMαFP/GCE) by a dropletting method. Tyrosine (Tyr) was detected at the HPMαFP/GCE by cyclic voltammetry. The mechanism and the best condition of electrode reaction were studied. The results indicate Tyr has an excellent electrochemical response at HPMαFP/GCE; under optimized experimental conditions, the peak current is proportional to the concentration of Tyr over a wide range. The linear regression equation at HPMαFP/GCE is IPa (µA) = 1.01134 + 0.96716 C (µmol · L?1) (r = 0.99914). The low detection limit is 1.6 × 10?7 mol · L?1. The modified electrode exhibited high sensitivity, good selectivity, and reproducibility, and it is easy to prepare. 相似文献
Abstract The voltammetric behavior of dopamine was studied at a glassy carbon electrode modified by cysteic acid, based on electrochemical oxidation of L‐cysteine. The modified electrode showed strong electrocatalytic activity towards dopamine and good selectivity. In a phosphate buffer solution (pH 7.4), the anodic peak current obtain from the differential pulse voltammetry of dopamine was linearly dependent on its concentration in the range of 5×10?9 to 4.0×10?6mol · L?1, with a detection limit of 2×10?9mol · L?1. The low‐cost modified electrode had been applied to the determination of dopamine in human serum and urine samples with satisfactory results. 相似文献
A sensitive and selective electrochemical method for the simultaneous determination of dopamine (DA) and uric acid (UA) was developed using a pyrogallol red modified carbon paste electrode. Under the optimized conditions, the peak current was linearly dependent on 1.0–700.0 μmol L?1 DA and 50.0–1000.0 μmol L?1 UA. The detection limits for DA and UA were 0.78 μmol L?1 and 35 μmol L?1, respectively. Finally, this method was also examined for the determination of DA and uric acid in real samples such as drugs and urine. 相似文献
Based on the study of voltammetric behavior of carcinogenic 1-nitropyrene (1-NP), 1-aminopyrene (1-AP), and 1-hydroxypyrene (1-HP), optimum conditions have been found for the determination of these analytes by differential pulse voltammetry (DPV) at a boron-doped diamond film electrode. The optimum medium was methanol-Britton–Robinson buffer (BR buffer) pH 3.0 (70:30) for 1-NP and 1-AP, and methanol-BR buffer pH 5.0 (70:30) for 1-HP. Concentration dependences of the DPV response were measured in the range 1 · 10?6–1 · 10?4 mol dm?3 (R = ?0.9998) with the limit of detection (LOD) 3 · 10?7 mol dm?3 for 1-NP, 1 · 10?7–1 · 10?5 mol dm?3 (R = 0.9971) with LOD 6 · 10?8 mol dm?3 for 1-AP, and 1 · 10?7–1 · 10?5 mol dm?3 (R = 0.9934) with LOD 1 · 10?7 mol dm?3 for 1-HP. Simultaneous determination of 1-NP and 1-AP in a mixture was tested in the methanol-BR buffer pH 3.0 (70:30) medium as well. The content of 1-AP in the concentration range from 1 · 10?6 to 1 · 10?4 mol dm?3 had no effect on the sensitivity of the determination of 1-NP, and vice versa. Due to the close peak potentials of 1-AP and 1-HP, the direct determination of their mixture using voltammetric methods is impossible. 相似文献
A self-assembled sensor based on a boron-doped diamond was investigated as a sensitive tool for voltammetric analysis of a member of a pyridine herbicide family - picloram. A cyclic voltammetry and a differential pulse voltammetry were applied for investigation of the voltammetric behaviour and quantification of this herbicide. Picloram yielded one well-developed irreversible oxidation signal at a very positive potential about +1.5 V vs. Ag/AgCl/3 mol L?1 KCl electrode in an acidic medium and 1 mol L?1 H2SO4 was chosen as a suitable supporting electrolyte. Operating parameters of differential pulse voltammetry were optimized and the proposed voltammetric method provided a high repeatability (a relative standard deviation of 20 repeated measurements at a concentration level of picloram of 50 µmol L?1 equaled to 2.58%), a linear concentration range from 2.5 to 90.9 µmol L?1 and a low limit of detection (LD = 1.64 µmol L?1). Practical usefulness of the ‘environmentally-green’ electrochemical sensor was verified by an analysis of spiked water samples with satisfactory recoveries. 相似文献
Silver nanoparticles enhanced glucose oxidase electrodes were prepared on the basis of chitosan matrix. The enzyme electrodes exhibited high sensitivity and excellent response performance to glucose with a linear range from 1×10?6 to 8×10?3 mol · L?1. And the time reaching the steady‐state amperometric response was less than 5 seconds. The inhibition percentage of this enzyme electrode against copper ions concentration was linear ranging from 1.2×10?6 to 5×10?5 mol · L?1. These properties of enzyme electrodes are probably due to the excellent electron transfer of silver nanoparticles and the orientation of glucose oxidase molecule. 相似文献
A new composite electrode is described for anodic stripping voltammetry determination of Pb(II) at trace level in aqueous solution. The electrode is based on the use of multiwalled carbon nanotubes and Amberlite IR-120. The anodic stripping voltammograms depend, to a large extent, on the composition of the modified electrode and the preconcentration conditions. Under optimum conditions, the anodic peak current at around ?0.57 V is linearly related to the concentration of Pb(II) in the range from 9.6?×?10?8 to 1.7?×?10?6 mol L?1 (R?=?0.998). The detection limit is 2.1?×?10?8 mol L?1, and the relative standard deviation (RSD) at 0.24?×?10?6 mol L?1 is 1.7% (n?=?6). The modified electrode was applied to the determination of Pb(II) using the standard addition method; the results showed average relative recoveries of 95% for the samples analysed.
Figure
A new composite electrode is described for anodic stripping voltammetry determination of Pb(II) at trace level in aqueous solution. The electrode is based on the use of MWCNT and Amberlite IR-120. The method showed a good linearity for 9.6?×?10?8 - 1.7?×?10?6 mol L?1 and detection limit of 2.1?×?10?8 mol L?1. 相似文献
A new type of carbon ceramic electrode modified with bismuth oxide nanoparticles (referred to as Bi-CCE) was fabricated via the sol-gel method. The Bi-CCE was applied to the determination of syringic acid by square wave adsorptive stripping voltammetry. The electrochemical properties of the Bi-CCE and the voltammetric response to syringic acid were investigated by cyclic voltammetry. The effects of the pH value of supporting electrolyte, of accumulation potential, accumulation time, SW mode parameters, and of possible interferents were tested. Under optimized conditions, the oxidation peak current (best measured at 0.8 V vs Ag/AgCl after an accumulation time of 20 s) increases linearly in the 0.4 to 24 μmol·L?1 syringic acid concentration range. Other figures of merit include an LOD of 47 nmol·L?1, a sensitivity of 3.3 μA·μmol?1·L·cm?2, and a relative standard deviation of 4.7% (for n = 5) at 2 μmol·L?1 of syringic acid. The method was successfully applied to the determination of syringic acid in red, white and rose wine as well as water samples.
Graphical abstract Schematic presentation of the preparation of carbon ceramic electrode (CCE) containing Bi2O3 nanoparticles and its application in square wave adsorptive stripping voltammetric (SW AdSV) determination of syringic acid.
Voltammetry using solid electrodes usually suffers from the contamination due to the deposition of the redox products of analytes on the electrode surface. The contamination has resulted in poor reproducibility and overelaborate operation procedures. The use of the chemical catalysis of oxidant on the reduction product of analyte not only can eliminate the contamination of analyte to solid electrodes but also can improve the faradaic response of analyte. This work introduced both the catalysis of oxidant K2S2O8 and the enhancement of surfactant Triton X-100 on the faraday response of amiodarone into an adsorptive stripping voltammetry at a carbon paste electrode for the determination of amiodarone. The method exhibits high sensitivity, good reproducibility and simple operation procedure. In 0.2 mol·L^-1 HOAc-NaOAc buffer (pH=5.3) containing 2.2×10^-2 mol·L^-1 K2S2O8 and 0.002% Triton X-100, the 2.5th-order derivative stripping peak current of the catalytic wave at 0.3 V (vs. Ag/AgCl) is rectilinear to amiodarone concentration in the range of 2.0×10^-10-2.3×10^-8 mol·L^-1 with a detection limit of 1.5×10^-10 mol·L^-1 after accumulation at 0 V for 30 s. 相似文献
The behavior of seven hydroxy anthraquinone derivatives was studied by capillary zone electrophoresis and micellar electrokinetic chromatography. The effects of buffer pH (6.5–10.8) and sodium dodecyl sulfate concentration (10–20 mmol L?1) on the effective mobilities of the analytes and their separation were tested. A comparison of the two optimized separation systems showed that micellar electrokinetic chromatography was superior as it permits separation of all the seven analytes within 15 min, using 15 mmol L?1 sodium dodecyl sulfate in 10 mmol L?1 tetraborate buffer, pH 8.5, at a voltage of 20 kV. The calibration curves were linear in the concentration range from 5.0 · 10?7 to 5.0 · 10?4 mol L?1 for most of the analytes, at a detection wavelength of 254 nm. LOD and LOQ values of the analytes were in the ranges of 2.10 · 10?7–1.28 · 10?6 mol L?1and 6.99 · 10?7–4.25 · 10?6 mol L?1, respectively. The proposed separation conditions were applied to determination of 1,2-dihydroxy anthraquinone (alizarin) and 1,2,4-trihydroxy anthraquinone (purpurin) in Rubia tinctorum aglycone and of the recently described 1-acetyl-2,4,5,7-tetrahydroxy-9,10-anthraquinone and 1-acetyl-2,4,5,7,8-pentahydroxy-9,10-anthraquinone in the mycelium of fungi Geosmithia lavendula.相似文献
