16 research outputs found
Heat Treated NiP–SiC Composite Coatings: Elaboration and Tribocorrosion Behaviour in NaCl Solution
Tribocorrosion behaviour of heat-treated NiP and NiP–SiC composite coatings was investigated in a 0.6 M NaCl solution. The tribocorrosion tests were performed in a linear sliding tribometer with an electrochemical cell interface. It was analyzed the influence of SiC particles dispersion in the NiP matrix on current density developed, on coefficient of friction and on wear volume loss. The results showed that NiP–SiC composite coatings had a lower wear volume loss compared to NiP coatings. However, the incorporation of SiC particles into the metallic matrix affects the current density developed by the system during the tribocorrosion test. It was verified that not only the volume of co-deposited particles (SiC vol.%) but also the number of SiC particles per coating area unit (and consequently the SiC particles size) have made influence on the tribocorrosion behaviour of NiP–SiC composite coatings
Reflectometric study of the adsorption of poly(vinyl imidazole) on a gold electrode, effects of pH, and applied potential.
The adsorption–desorption behavior of poly(vinyl imidazole), a weak polybase (pH-dependent positive charge), on a gold electrode was investigated using optical fixed-angle reflectometry. Using an instrument comprising an impinging-jet system, the hydrodynamic conditions were well defined, making it possible to study the adsorption rate. Comparison between the actual adsorption rate and that of a purely diffusion-controlled process revealed the occurrence and the change of an electrostatic barrier in the adsorption process. The surface charge of the gold electrode was varied by means of an externally applied potential. The surface charge density was evaluated by separate electrochemical impedance spectroscopy. The uptake and the adsorption rate were very sensitive to pH and electrode polarization. At pH 3, the adsorption of the fully charged polymer increased fairly regularly with cathodic polarization, whereas it remained at about 0.4 mgm−2 in the anodic zone At pH 8, the adsorption of the uncharged polymer decreased with the negative charge of the electrode due to the more favorable adsorption of potassium ions on the charged electrode. Discrepancies in adsorption–desorption measurements taken while cycling the pH were due to an electrostatic adsorption barrier
Mediated enzyme electrodes
This review summarizes the long time experience of the team at the Electrochemistry of Biocatalysts and Metal-Air Systems Department in the field of the mediated enzyme electrodes. Investigated is the redox behaviour of a mediated enzyme electrode depending on the kind of carbon materials, needed to produce the electrode (compact carbon material -pyrolytic graphite or dispersed carbon material -carbon black), the type of mediators (ferrocene derivates, nickelocene and benzoqoquinone), and the type of enzyme (glucose oxidase and lactate oxidase). Key words: mediator, enzyme electrode, pyrolytic graphite electrode, carbon black INTRODUCTION The research work in the field of the biosensors has expanded very rapidly since the development of glucose enzyme electrodes, which are of particular interest in the biomedical analysis field The electrochemical biosensor is a complicated device which converts a biological recognition process into an electrical signal, the amplitude of which is related to the concentration of the analyte. The coupling of the electron transfer of the enzyme with the electron transfer at the electrode poses a major problem to the biosensor development. In most cases the enzyme redox centres are essentially insulated within the enzyme molecule so that a direct electron transfer to the surface of the conventional electrode does practically not occur. The electrical communication between the redox centres of the enzyme and the electrode requires either the presence of oxygen and hydrogen peroxide and their diffusion to and from the enzyme redox centres, or the presence of a redox mediator Glucose oxidase (GOD) is one of the first enzymes used in the biocatalytic electrochemical sensing elements The detection principle is based on an electrochemical reaction in which the H 2 O 2 production or the O 2 consumption is detected. The produced H 2 O 2 can be electrochemically oxidised on an electrode at a constant potential, and the generated anodic current is used to measure the glucose concentration. Together with the natural electron acceptor in reaction (1), oxygen, and other low-molecular-weight compounds are used as mediators between the enzyme and the electrode. The mediator is a low molecular weight redox couple, which shuttles electrons from the enzyme redox center to the surface of the electrode. The following scheme describes the reactions which take place on the mediated electrode where GOD ox and GOD red are the enzyme in oxidized and reduced form of its active center, respectively, M ox and M red are the oxidized and the reduced form of the electrochemical mediator. The conjugation of the enzyme catalyzed steps (2) and (3) is accomplished through the electrochemical reaction (4). The use of the electrochemical mediator in the amperometric enzyme electrodes is connected with two basic requirements to these electrodes: the amperometric signal of the electrode must be independent of the concentration of the dissolved oxygen in the electrolyte; and the working potential © 2011 Bulgarian Academy of Sciences, Union of Chemists in Bulgaria *To whom all correspondence should be sent: E-mail: [email protected] 82 of the enzyme electrode must be low enough so that no organic compound in the electrolyte could be oxidized simultaneously with the substrate Quinones, organic dyes such as methylene blue, phenazines, methyl violet, Alizarin yellow, prussian blue, thionin, azure A and C, toluidine blue, iron complexes such as hexacyanoferrat, ferrocene and their derivatives, act as mediators and have been widely used in a number of biosensors The reduced forms of the mediators can be electrochemically oxidized on an electrode at potentials lower than that of the H 2 O 2. This gives a possibility to design biosensors, operating at potentials lower than those based on the natural enzymatic reaction (1). It must be noticed that a low working potential of the biosensor is preferable in order to decrease the rate of oxidation of some compounds, usually present in physiological fluids. The oxidation of this compound results in an electric signal, disturbing the signal, obtained by the glucose oxidation. In this way the possible interference with the amperometric signal of the biosensor is reduced The enzyme electrode is prepared by the application of mediator solution on the activated pyrolytic graphite surface, and after drying in the air, the electrode surface is covered with a GOD or LOD solution of the enzyme in a phosphate buffer (pH 7). After drying at a room temperature, the electrode is washed in a buffer solution. Between measurements the enzyme electrode is kept at 4 ºC. The enzyme electrodes are prepared also by consecutive application of a mediator and an enzyme on the porous supporting layer of carbon black-PTFE (polytetrafluorethylene) material. In other cases, a porous matrix of carbon material, wet proofed with PTFE, is embedded in a plastic tube and covered by a thin layer of a mixture of the same wet proofed material and mediator (p-benzoquinone). This thin layer forms the face of the electrode onto which the enzyme is immobilized. The electrochemical measurements are performed in a two-or three-electrode cell with an Ag/AgCl reference electrode and Pt counter electrode. The electrolytes comprise of a 0.1 M phosphate buffer solution and a 0.1 M phosphate buffer solution, containing 0.1M KCl. RESULTS AND DISCUSSION Mediated enzyme electrodes, prepared from electrochemically activated pyrolytic graphite electrode The quasi-redox potentials of the investigated ferrocene derivatives are obtained from the cyclic voltammograms of an electrochemically activated pyrolytic graphite electrode, modified with the corresponding compound. The obtained experimental values of the quasi-redox potentials of the investigated ferrocene derivatives are in a good coincidence with the literature data, as well as with our data, previously obtained with the same ferrocene derivatives, adsorbed on another type of carbon electrode The methanol-ferrocene possesses a more negative quasi-redox potential than that of the ferrocene, so that it is suitable to be used as a mediator in glucose and lactate electrodes. The R. I. Boukoureshtlieva et al.: Mediated enzyme electrodes 83 cyclic voltammogram is measured in a 0.1M phosphate buffer The steady-state current of the investigated enzyme electrodes, as a function of the substrate concentration, is studied in both, the presence of oxygen dissolved in the electrolyte, and after the significant decrease of the dissolved oxygen concentration by blowing argon through the electrolyte. The behaviour of the lactate oxidase enzyme electrodes with mediator methanolferrocene or butylferrocene is also investigated. In order to check if the substrate (Li L-lactate) is directly oxidized on the electrode surface, electrode is prepared from electrochemically activated pyrolytic graphite, modified with a mediator and with a covering layer of Nafion. The steady-state current of these electrodes at a constant potential of + 350 mV vs. Ag/AgCl is measured in the presence of Li L-lactate in the solution, and no amperometric signal is observed, i.e. the substrate is not directly oxidized on the electrode at this potential. The calibration curve of a lactate electrode with butylferrocene is presented in Application of the mediated enzyme electrode at a low working potential is preferable for the biosensing. The investigations are oriented at selecting those ferrocene derivatives which possess a redox potential lower than that of the ferrocene. Another way to achieve a mediated electrode with a low working potential is to use a structural analog of ferrocene which possesses a redox potential lower than that of the ferrocene. Investigations of the electrochemical behavior of the metallocenes in non-aqueous electrolyte have shown that the redox potential of a nickelocene/nicelocenium couple is ca. 0.4 V more negative than that of the ferrocene/ferrocenium couple The stable cyclic voltammograms of the electrochemically activated pyrolytic graphite electrodes with adsorbed nickelocene and with adsorbed ferrocene are juxtaposed i
Dynamics of the acute viral hepatitises morbidity and range of medicinal preparations for treatment in hospital environment in the Volgograd region (the Russian Federation), 2016–2018.
The aim of the study was to investigate the prevalence of acute viral hepatitises A, B and C in the Volgograd region; the range and identification of the most frequently prescribed pharmacological groups to be used in hospital environment; and analyzing the price dynamics of medicines. These factors will make it possible to assess the state of the medicine provision for the patients with this disease in hospital environment. Materials and methods. In the study, the following methods have been used: comparison, a method of grouping indicators and a structurallogical method. The materials were the hepatological department patients’ treatment sheets (Volgograd Regional Clinical Infectious Diseases Hospital N1).Results. Acute hepatitis A is the most common (46.9%), acute hepatitis B occupies the second position (27.4%), and acute hepatitis C – the third one (25.7%), where in 46.2%, 23.5% and 14.7%, respectively, are accounted for by icteric viral hepatitis. Hepatoprotectors, symptomatic medications and rehydration and detoxification medicinal preparations are prescribed for all forms and degrees of the disease severity.Conclusion. The study has revealed a decreased morbidity of acute viral hepatitises A, B and an increased morbidity of acute viral hepatitis C in the Volgograd region. Among all the types of hepatitises, the prevailing one is the icteric form of moderate severity. The range of medicinal preparations prescribed for the treatment of acute viral hepatitises has been studied. Most often, doctors prescribe hepatoprotectors, rehydration and detoxification medicinal preparations. The study of price dynamics, showed a predominant increase in hepatoprotectors and a decrease in medicines for rehydration and detoxification. The results obtained indicate a tendency towards the improvement of drug provision in the Volgograd Region, for the patients with acute viral hepatitises. Besides, the results of the study give an opportunity to consider the ways of its further optimization
Tribology of thin wetting films between bubble and moving solid surface
This work shows a successful example of coupling of theory and experiment to study the tribology of bubble rubbing on solid surface. Such kind of investigation is reported for the first time in the literature. A theory about wetting film intercalated between bubble and moving solid surface was developed, thus deriving the non-linear evolution differential equation which accounted for the friction slip coefficient at the solid surface. The stationary 3D film thickness profile, which appears to be a solution of the differential equation, for each particular speed of motion of the solid surface was derived by means of special procedure and unique interferometric experimental setup. This allowed us to determine the 3D map of the lift pressure within the wetting film, the friction force per unit area and the friction coefficient of rubbing at different speeds of motion of the solid surface. Thus, we observed interesting tribological details about the rubbing of the bubble on the solid surface like for example: 1. A regime of mixed friction between dry and lubricated friction exists in the range of 6–170µm/s, beyond which the rubbing between the bubble and solid becomes completely lubricated and passes through the maximum;2. The friction coefficient of rubbing has high values at very small speeds of solid's motion and reduces substantially with the increase of the speed of the solid motion until reaching small values, which change insignificantly with the further increase of the speed of the solid. Despite the numerous studies on the motion of bubble/droplet in close proximity to solid wall in the literature, the present investigation appears to be a step ahead in this area as far as we were able to derive 3D maps of the bubble close to the solid surface, which makes the investigation more profound