Determination of Anticholinesterase Activity for Pesticides Monitoring Using a Thiocholine Sensor

Abstract

An acetylthiocholine sensor based on a disposable screen-printed carbon electrode has been assembled for measuring organophosphorus and carbamate pesticides in river water samples through the degree of inhibition of the enzyme acetylcholinesterase (AChE). The carbon working electrode surface was modified by deposition of a mediator, tetracyanoquinodimethane (TCNQ), and Nafion. Acetylcholinesterase catalyses the cleavage of acetylthiocholine to thiocholine, which is measured by differential pulse voltammetry and directly related to the enzyme activity. The scan speed, the pulse amplitude of the differential pulse voltammetry and several parameters in the procedure were optimised. An inhibition calibration curve was obtained using carbofuran. The method was also applied to water samples, showing its suitability as a rapid screening assay (15 min per test) for anticholinesterase activity detection.     

Electrochemically promoted photocatalytic oxidation of nitrite ion by using rutile form of TiO2/Ti electrode

The photocatalytic oxidation of nitrite ion in a NaCl aqueous solution using the rutile form of TiO₂/Ti as the working electrode was studied. Experimental results indicate that the rutile form of TiO₂/Ti film electrode has excellent photoactivity by applying a bias potential and irradiation simultaneously. The incident photo-to-current conversion efficiency (IPCE) of this working electrode is a function of the applying bias potential. The photocurrent efficiency of nitrite ion oxidation was 33–40% at a pH of about 7. The oxidation rate of the nitrite ion in brine wastewater using the rutile form of TiO₂/Ti electrode can be estimated by photocurrent measurements. The applying bias potential, light power and pH value were the major factors affecting the oxidation rate and the photocurrent efficiency of nitrite ion oxidation, while the concentrations of nitrite ion was minor.     

Electrochemical polymerization of aniline over tetracyanoquinodimethane encapsulated ormosil matrix: application in the electrocatalytic oxidation of ascorbic acid and acetylthiocholine

Organically modified sol-gel glass (ormosil) matrix is utilized as a template for the electrochemical polymerization of aniline. The ormosil matrix is further modulated by encapsulation of: (a) tetracyanoquinodimethane (TCNQ), and (b) tetracyanoquinodimethane together with palladium (Pd). The presence of tetracyanoquinodimethane within ormosil matrix considerably influences the polymerization process of aniline and the same is significantly enhanced as compared to that of control. The presence of palladium within ormosil network further influence the polymerization process as compared to that of TCNQ only. The polyaniline obtained as PAni-TCNQ and PAni-TCNQ-Pd composites has been utilized for fabricating the modified electrodes. These modified electrodes are used to study the electrochemical sensing of ascorbic acid and acetylthiocholine. The results based on cyclic voltammetry, differential pulse voltammetry and amperometry justify that the electrode material exhibits excellent electrocatalytic activity for the oxidation of ascorbic acid and acetylthiocholine with major findings as compared to the control: (1) a negative shift to the order of ～340 mV vs. Ag/AgCl in the anodic overpotential for the electro-oxidation of ascorbic acid, (2) a significant increase in the anodic peak current for the oxidation of ascorbic acid, (3) an increase in the sensitivity of ascorbic acid analysis to the order of 7-fold for the modified electrodes, (4) acetylthiocholine undergoes direct oxidation with considerable increase in both anodic and cathodic peak currents and (5) an increase in the sensitivity of acetylthiocholine analysis to the order of 5-fold for the modified electrodes.     

Efficient charge injection from the S2 photoexcited state of special-pair mimic porphyrin assemblies anchored on a titanium-modified ITO anode

A novel surface fabrication methodology has been accomplished, aimed at efficient anodic photocurrent generation by a photoexcited porphyrin on an ITO (indium-tin oxide) electrode. The ITO electrode was submitted to a surface sol-gel process with titanium n-butoxide in order to deposit a titanium monolayer. Subsequently, porphyrins were assembled as monolayers on the titanium-treated ITO surface via phosphonate, isophthalate, and thiolate groups. Slipped-cofacial porphyrin dimers, the so-called artificial special pair at the photoreaction center, were organized through imidazolyl-to-zinc complementary coordination of imidazolylporphyrinatozinc(II) units, which were covalently immobilized by ring-closing olefin metathesis of allyl side chains. The modified surfaces were analyzed by means of X-ray photoelectron spectroscopy. Photoirradiation of the porphyrin dimer generated a large anodic photocurrent in aqueous electrolyte solution containing hydroquinone as an electron sacrificer, due to the small reorganization energy of the dimer. The use of different linker groups led to significant differences in the efficiencies of anodic photocurrent generation. The apparent flat-band potentials evaluated from the photocurrent properties at various pH values and under biased conditions imply that the band structure of the ITO electrode is modified by the anchoring species. The quantum yield for the anodic photocurrent generation by photoexcitation at the Soret band is increased to 15 %, a surprisingly high value without a redox cascade structure on the ITO electrode surface, while excitation at the Q band is not so significant. Extensive exploration of the photocurrent properties has revealed that hot injection of the photoexcited electron from the S2 level into the conduction band of the ITO electrode takes place before internal conversion to the S1* state, through the strong electronic communication of the phosphonyl anchor with the sol-gel-modified ITO surface.     

硫化镉修饰电极的光电化学行为

对半导体电极表面进行修饰,使它能吸收与太阳.光谱相匹配波长范围的光和具有良好电化学活性是光电化学研究领域中的一个课题.     

Evaluation of Some Redox Mediators in the Design of Reagentless Amperometric Glucose Biosensor

The influence of redox mediators (tetrathiafulvalene (TTF), tetrathiafulvalene‐tetracyanoquinodimethane complex (TTF‐TCNQ), phenazine methosulfate (PMS), 5,6‐diamino‐1,10‐phenonthroline (5,6‐DAP), potassium ferrocyanide (K4[Fe(CN)6]), methylene blue (MB) and toluidine blue (TB)) on the response of amperometric glucose biosensor was investigated in this research. Graphite rod electrode (GRE) modified by adsorbed mediator and glucose oxidase (GOx) cross‐linked with glutaraldehyde was served as working electrode. The highest amperometric signals were observed by using TTF and TTF‐TCNQ as mediators. The impact of amount of immobilized GOx, an optimal pH region for operation, stability and reproducibility of the analytic signal of designed biosensor using these mediators were investigated and discussed.     

Photoinduced electron transfer from synthetic chlorophyll analogue to fullerene C60 on carbon paste electrode. Preparation of a novel solar cell

Upon a carbon paste electrode, fullerene C60 and successively methyl pyropheophorbide-a (chlorin) were casted to prepare a chlorin-fullerene modified carbon paste electrode (CFE). Photocurrents on the CFE were produced by irradiating of visible lights (> 510 nm) in an aqueous solution of 0.05 M ethylenediaminetetraacetic acid and 0.1 M Na2SO4 at pH 6.7. Larger anodic photocurrent was induced by the CFE than by the carbon paste electrodes modified with either the fullerene or the chlorin. In addition, the photocurrent of the CFE was dependent upon the amount of fullerene casted. The photocurrent action spectra of the CFE (at 300 mV vs. Ag/Ag+) showed that photoinduced electron transfer occurred from the excited state of the chlorin to the fullerene and/or from the chlorin to the photoexcited fullerene, and the electron of the fullerene anion radical produced was then shifted to the carbon paste. Upon irradiation of > 375 nm lights, the anodic photocurrent of the CFE was enhanced by increase in the illuminated light power and reached 0.03 mA cm-2 in the present system.     

Signal-to-noise enhancement using carbon fiber electrodes in the photoelectroanalytical detection of tris(2,2′-bipyridine)ruthenium(II)

Photoelectroanalytical chemistry (PEAC) is a sensitive and selective technique for the detection and quantitation of tris(2,2′-bipyridine)ruthenium(II). Currently, the detection limit of this method is restricted by background photocurrent due to photochemical processes which occur on the electrode surface. Since these processes increase as the illuminated electrode area increases, experiments were carried out using a cylindrical carbon fiber as the working electrode in a non-flowing system. Results were compared to both a glassy carbon and a platinum macroelectrode. Determination of the signal photocurrent density for the fiber electrode showed it to be of the same order of magnitude as the larger electrodes, while the background photocurrent density was more than two orders of magnitude lower than at the larger electrodes. The signal-to-noise ratio for the microelectrode was also much higher than for either macroelectrode. On the basis of these results, a theoretical detection limit of approximately 10⁻⁹M is possible using a carbon fiber electrode in an ordinary (static) electrochemical cell.     

叶绿素、染料体系光电效应的研究

叶绿素光电性质的研究有特殊意义.70年代开始国内外已有很多报道, 它们有整流、光导、光伏和光解水制取氢和氧等性质^[1-5].我们也报道过叶绿素a/聚乙烯醇夹层电池的研究^[6-8]。     

Optical Sensing by Silica/Titania Thin Films Doped with Oxacarbocyanine Dye

Photocurrent responses of sol-gel films of silica/titania doped with oxacarbocyanine dye were investigated with a sandwich-type photocell constructed with polymer electrolyte membrane and indium-tin-oxide glass electrodes. At an equilibrium and positive bias voltages, a typical photocell exhibited negative and positive current peaks when the visible light illumination was on and off, respectively. The wavelength dependence of the photocurrent responses well matched to the absorption band of the doped dye. This differential photocurrent response was attributed to trapping of carriers photoexcited in the dye molecules at the defect states in the matrix film. At negative bias voltages, on the other hand, the cell exhibited constant, negative photoelectrochemical currents under illumination. These differential and linear photocurrent responses were affected by the SiO₂/TiO₂ matrix structures depending on the Si : Ti ratio.     

有机钌螯合物/TiO_2杂化膜修饰电极上Pt纳米团簇的光电流增强效应

利用LB膜技术可控制备了纳米单层和多层的二氧化钛-有机钌螯合物杂化膜,并研究了上述无机-有机杂化膜修饰电极在Pt纳米团簇敏化后的光电流增强效应.实验结果表明:(1)纳米单层TiO2/[Ru(phen)2(dC18bpy)]2+(简称为TiO2-Ru)杂化膜的平均厚度为(3.6±0.5)nm;(2)在光照条件下TiO2-Ru杂化膜能有效催化还原[Pt(NH3)6]4+形成粒径位于20～160nm之间的Pt纳米团簇;(3)Pt纳米团簇的引入消除了金属钌螯合物中配体对电子传递的阻碍作用,改变了电子传递途径,从而有效减少了电子空穴对的复合,提高了Pt纳米团簇敏化的n层杂化膜修饰电极(ITO/(TiO2-Ru)n/Pt)在支持电解质中的光电流.与纳米单层TiO2-Ru杂化膜修饰的ITO电极(ITO/TiO2-Ru)相比,当工作电压为900mV时,ITO/TiO2-Ru/Pt在0.1mol·L-1的NaClO4电解质溶液中和光照(λ360nm)条件下,单位面积的光电流提高了约5倍;(4)ITO/(TiO2-Ru)n/Pt电极光电流的大小与杂化膜的层数密切相关,当TiO2-Ru杂化膜的层数从一层、二层增加到四层时,光电流呈现先升高后下降行为,这表明ITO/(TiO2-Ru)n/Pt电极的电子传递过程直接通过非电活性的二氧化钛纳米单层进行.     

DIAMINODURENE AS A MEDIATOR OF A PHOTOCURRENT USING INTACT CELLS OF CYANOBACTERIA

Abstract –A mediator for the measurement of a photocurrent generated by intact cells of cyanobacteria immobilized onto the working electrode in an electrochemical cell is described. The efficiency of diaminodurene (DAD) as an electron shuttle between the photosynthetic electron transport chain (PET) within the cells and the electrode was compared with ferrocyanide and p -benzoquinone. A simple Synechococcus -carbon-paste electrode containing DAD as the mediator in the electrode material and the photosynthetic cells immobilized in a polymer matrix was constructed. The device required no addition of further reagents to the bulk solution for the generation of a photocurrent. Using cyclic voltammetry the second-order rate constant for the reaction of DAD with the PET was determined. Diaminodurene compared favorably with p -benzoquinone in that the overpotential was reduced to 0.2 V. The deterioration of the PET by the DAD was significantly decreased compared with p -benzoquinone, resulting in a prolonged lifetime of the electrode. A possible mechanism for the reaction of DAD with the PET is discussed.     

Tailoring a Zinc Oxide Nanorod Surface by Adding an Earth-Abundant Cocatalyst for Induced Sunlight Water Oxidation

Herein, a detailed investigation of the surface modification of a zinc oxide (ZnO) nanorod electrode with FeOOH nanoparticles dispersed in glycine was conducted to improve the water oxidation reaction assisted by sunlight. The results were systematically analysed in terms of the general parameters (light absorption, charge separation, and surface for catalysis) that govern the photocurrent density response of metal oxide as photoanode in a photoelectrochemical (PEC) cell. ZnO electrodes surface were modified with different concentration of FeOOH nanoparticles using the spin-coating deposition method, and it was found that 6-layer deposition of glycine-FeOOH nanoparticles is the optimum condition. The glycine plays an important role decreasing the agglomeration of FeOOH nanoparticles over the ZnO electrode surface and increasing the overall performance. Comparing bare ZnO electrodes with the ones modified with glycine-FeOOH nanoparticles an enhanced photocurrent density can be observed from 0.27 to 0.57 mA/cm² at 1.23 V_RHE under sunlight irradiation. The impedance spectroscopy data aid us to conclude that the higher photocurrent density is an effect associated with more efficient surface for chemical reaction instead of electronic improvement. Nevertheless, the charge separation efficiency remains low for this system. The present discovery shows that the combination of glycine-FeOOH nanoparticle is suitable and environmentally-friend cocatalyst to enhance the ZnO nanorod electrode activity for the oxygen evolution reaction assisted by sunlight irradiation.     

导电高聚物修饰纳米尺度TiO~2多孔膜电极的光电化学研究

用光电化学方法研究了用导电高聚物修饰的纳米晶TiO~2多孔膜电极在不含氧化还原对和含不同氧化还原对体系电解质溶液中的光电转换过程。TiO~2/导电高聚物多孔膜电极为双层n型半导体结构,内层TiO~2多孔膜的禁带宽度为3.26eV,外层聚吡咯(PPy)膜的禁带宽度为2.23eV,而聚苯胺(PAn)膜的禁带宽度为2.88eV。用导电高聚物修饰半导体电极能使其在可见光区的光吸收增加,光电流增强,且起始波长红移至>600nm,使宽禁带半导体电极的光电转换效率得到明显改善。     

Solid-state ion selective electrode based on polypyrrole conducting polymer nanofilm as a new potentiometric sensor for Zn2+ ion

A pencil graphite electrode (PGE) electrodeposited by a polypyrrole conducting polymer doped with tartrazine (termed as PGE/PPy/Tar) was prepared and used as a zinc (II) solid-state ion-selective electrode. For the preparation of the zinc sensor electrode, electrodeposition of a polypyrrole nanofilm was carried out potentiostatically (E _app?=?0.75 V vs SCE) in a solution containing 0.010 M pyrrole and 0.001 M tartrazine trisodium salt. A pencil graphite and Pt wire were used as working and auxiliary electrodes, respectively. The introduced electrode in the current paper can be fabricated simply and was found to possess high selectivity, exhibited wide working concentration range, sufficiently rapid response, potential stability, and very good sensitivity to Zn (II) ion. The sensor electrode showed a linear Nernstian response over the range of 1.0?×?10^?5 to 1.0?×?10^?1 M with a slope of 28.23 mV per decade change in zinc ion concentration. A detection limit of 8.0?×?10^?6 M was obtained. The optimum pH working of the electrode was found to be 5.0.     

热对镍阳极膜光电流测定的影响

镍在碱溶液中阳极膜的形成和性质与化学电源和金属腐蚀等有关．在这方面已有较深入的研究报导．其研究方法也是多种多样,除一般的电化学方法［１,２］外,还有许多现场谱学方法,如：紫外＿可见光谱［３］,红外光谱［４］,光热光谱［５］,拉曼光谱［６］,椭圆法［７...     

Coal as a New Carbon Paste Electrode Modifier with Sorption Properties

A new type of carbon paste electrode modified with subbituminous and bituminous coal is presented. The operability of the coal carbon paste electrode with respect to the working potential window attainable was tested in various electrolytes. Cyclic voltammetry of the reference redox system [Fe(CN)₆]^3?/4? was performed to evaluate electron transfer kinetics. Open‐circuit sorption of Cd(II), Pb(II), and Cu(II) with subsequent anodic stripping voltammetry was used to pilot coal sorption ability. The coal modified carbon paste electrode was also examined as a support for mercury film deposition and anodic stripping voltammetry of metals.     

Electrocatalytic Oxidation of Sulfite on a Nickel Aquapentacyanoferrate Modified Electrode: Application for Simple and Selective Determination

An electroactive metal cyanometallate complex, nickel aquapentacyanoferrate (NAPCF) was synthesized and characterized using XRD and UV‐vis spectral studies. The solid complex was then mechanically immobilized on the surface of a paraffin impregnated graphite electrode (PIGE) and the NAPCF modified electrode was characterized using cyclic voltammetry. The dependence of the modified electrode was tested in terms of supporting electrolyte, scan rate and pH of the medium. The electrocatalytic oxidation of sulfite at the modified electrode was investigated by cyclic voltammetry, hydrodynamic voltammetry and chronoamperometry techniques. It was found that the NAPCF modified electrode efficiently exhibited electrocatalytic activity for the oxidation of sulfite with relatively high sensitivity, selectivity and long life of activity. Based on the electrocatalytic oxidation, the NAPCF modified electrode was used as a sensor for the determination of sulfite. The linear working range for the determination of sulfite was 2.78×10^?6 M to 3.00×10^?3 M with a detection limit of 9.26×10^?7 M. The electrode was applied for the determination of sulfite in real samples satisfactorily.     

纳米尺度TiO2聚苯胺多孔膜电极光电化学研究

用光电流作用谱，光电流－电势图等光电化学方法研究了ＴｉＯ２／聚本胺复合多孔膜电极在不含氧化还原和含有没氧化还原对体系中的光电转换过程。结果说明，ＴｉＯ２／聚苯胺复合多孔膜电极为双层ｍ－型半导体结构，ＴｉＯ２多孔膜的禁带宽度为３．２ｅＶ，外层聚苯胺膜的禁带宽度为２．８８ｅＶ。     

Electrochemical approach to the development of a photoelectrode on the basis of photosynthetic reaction centers

Experimental approaches to the coupling of photoinduced charge separation in reaction centers (RCs) of the photosynthetic bacterium Rhodobacter sphaeroides R-26 with electron transfer to an electrode are discussed. Exogenous quinones are used as an electron transfer mediator. With the use of photopolarography it is shown that water-soluble ubiquinone can serve as a diffusionally mobile mediator of electron transfer. Some methods of quinone immobilization at an electrode have been developed to obtain a non-diffusional mediator of electron transfer. Quasi-reversible electrochemical kinetics were observed for aminonaphthoquinone immobilized as a monolayer at a Pt electrode. The ubiquinone-depleted RCs were subjected to affinity immobilization at these chemically modified electrodes probably due to the insertion of the immobilized quinone into the primary quinone Q_A binding site. The quantum efficiency of photocurrent formation was ca. 5% for the photoelectrode obtained. The electrochemical process of the immobilized quinone is shown to be the stage that limits electron transfer from RCs to the electrode.