Your search keyword '"Andrzej S. Baranski"' showing total 44 results

1. Ultrahigh Frequency Voltammetry: Effect of Electrode Material and Frequency of Alternating Potential Modulation on Mass Transport at Hot-Disk Microelectrodes

Author

Aliaksei Boika and Andrzej S. Baranski

Subjects

Convection, Horizontal scan rate, business.industry, Chemistry, Relaxation (NMR), Analytical chemistry, Dielectric, Analytical Chemistry, Microelectrode, Modulation, Optoelectronics, business, Voltammetry, Electrical impedance

Abstract

Ultrahigh frequency voltammetry involves low scan rate voltammetric measurements with microelectrodes polarized by high-frequency large-amplitude alternating potential. The method provides a simple means for studying electrothermal and dielectrophoretic effects, which are important in micro and nanofluidic systems. The method also allows for indirect measurements of electrode impedance at gigahertz frequencies. This increases the upper frequency limit in impedance measurements about 1000 times. In this work we demonstrated, for the first time, that the effect of dielectric relaxation of water can be observed in a simple voltammetric experiment. The paper focuses on the description of electrothermal convection at ac heated disk microelectrodes as a function of frequency and provides a comparison of numerical simulations with experimental results.

Published

2012

2. Numerical simulations of phenomena observed at hot microelectrodes: Inlaid microdisk

Author

Aliaksei Boika and Andrzej S. Baranski

Subjects

Convection, Microelectrode, Chemistry, Faradaic current, General Chemical Engineering, Electrochemistry, Analytical chemistry, Waveform, Electrolyte, Radius, Mechanics, Joule heating, Voltage

Abstract

In this paper we describe numerical simulations of a number of physico-chemical phenomena observed at disk microelectrodes polarized with a high frequency ac waveform. These phenomena include resistive heating of an electrolyte solution surrounding a microelectrode, electrothermal flow of the solution and electrochemical mass transport of dissolved redox species. The main purpose of doing these simulations was to provide the required theoretical background to the previously obtained experimental data. It is shown that the simulated linear flow rate of the solution is proportional to the voltage across the solution resistance in the power four and inversely proportional to the radius of the microelectrode. Thus this supports the idea that the convection at hot microelectrodes is driven primarily by the electrothermal flow. Simulations of the Faradaic current agree semi-quantitatively with the experimental observations. We have identified possible reasons for the observed discrepancy between the two sets of data.

Published

2011

3. Effect of Large-Amplitude Alternating Current Modulation on Apparent Reversibility of Electrode Processes

Author

Aliaksei Boika and Andrzej S. Baranski

Subjects

Chemistry, Kinetics, engineering.material, Analytical Chemistry, law.invention, Microelectrode, Amplitude, law, Chemical physics, Modulation, Distortion, Electrode, engineering, Noble metal, Alternating current

Abstract

We examined the effect of a large-amplitude high-frequency alternating potential modulation on direct currents associated with irreversible, quasi-reversible, and reversible electron-transfer processes occurring at microelectrodes under voltammetric conditions. All irreversible processes appear to be accelerated by the superimposed ac modulation, and under certain conditions this may even lead to an electrochemical etching of noble metal electrodes. In the case of electrode processes which are reversible on the time scale of a dc polarization, but quasi-reversible on the time scale of the ac modulation, the distortion of voltammograms caused by the ac modulation can provide useful information about the kinetics of fast electron-transfer processes. For completely reversible electrode processes the effect of the large-amplitude ac modulation is essentially trivial; the distortion of voltammetric curves causes broadening of analytical signals without providing any useful information.

Published

2010

4. Dielectrophoretic and Electrothermal Effects at Alternating Current Heated Disk Microelectrodes

Author

Aliaksei Boika and Andrzej S. Baranski

Subjects

business.industry, Chemistry, Nanowire, Analytical chemistry, Dielectrophoresis, Analytical Chemistry, law.invention, Temperature gradient, Microelectrode, law, Electric field, Potential gradient, Electrode, Optoelectronics, Alternating current, business

Abstract

When a disk microelectrode is polarized with an alternating potential of very high frequency (0.1-2 GHz) and a high amplitude (up to 2.8 V rms), the electrode is heated up, and at the same time, a very intense electric field is created around the electrode (10(6) V/m for electrodes 1 microm in radius). This strong electric field gives rise to positive or negative dielectrophoretic effects. Positive dielectrophoretic effects can be used to assemble nanowires from nanoparticles at the electrode edge. On the other hand, a negative dielectrophoretic effect is probably responsible for "jet boiling" observed at overheated microelectrodes. In addition, a combination of a high temperature gradient and a high potential gradient generates an intense electrothermal flow of solution which very strongly enhances the mass transport and is responsible for intense convection in such systems. The electrothermal flow and dielectrophoretic forces can be generated directly on a microelectrode employed in electrochemical detection because the high frequency ac polarization of the electrode does not interfere with the acquisition of analytical signals.

Published

2008

5. Positive and negative AC impedance feedback observed above conductive substrates under SECM conditions

Author

Andrzej S. Baranski and Piotr M. Diakowski

Subjects

Chemistry, Constant phase element, General Chemical Engineering, Analytical chemistry, Capacitance, law.invention, Scanning electrochemical microscopy, Capacitor, law, Electrode, Electrochemistry, Composite material, Alternating current, Electrical conductor, Electrical impedance

Abstract

A relationship between the tip response and the tip-to-substrate separation distance was investigated under alternating current scanning electrochemical microscopy (AC-SECM) conditions. For insulating substrates only negative AC feedback was observed. However, in the case of conductive substrates positive as well as negative AC feedback could be observed depending on experimental conditions. The theoretical model proposed in this work explains very well all observed trends and allows for qualitative predictions of the tip impedance in AC-SECM as a function of various experimental conditions (including: frequency, the supporting electrolyte concentration, the tip-to-sample separation distance and the tip diameter). In this theoretical model the double-layer capacitance of the tip and the sample is represented by a constant phase element (CPE), rather than an ideal capacitor. The paper also describes how raw experimental impedance data can be corrected for imperfections of the measuring system.

Published

2006

6. Cyclic Chronopotentiometry as a Detection Tool for Flowing Solution Systems

Author

Tadeusz Krogulec, Anna Basa, Andrzej S. Baranski, and Jolanta Magnuszewska

Subjects

Analyte, business.industry, Chemistry, Analytical chemistry, Signal, Analytical Chemistry, Microelectrode, Capillary electrophoresis, Electrode, Optoelectronics, Current (fluid), business, Electronic circuit, Electrode potential

Abstract

Cyclic chronopotentiometry provides a very simple detection method, which may be particularly useful in capillary electrophoresis (CE) and microseparation systems. It has been shown that for disk microelectrodes it is possible to define safe reduction and oxidation currents that would never lead to the formation of H2 or O2 gas bubbles, even if they are applied for an indefinitely long time period. During end-column CE detection, currents passing through the working microelectrode can be completely controlled by the external electronic circuit and they are not affected by the separation current. Consequently, problems created by the offset potential in CE can be completely eliminated. The detection can be accomplished through a variety of different mechanisms; however, generation of the electrode response as a result of analyte adsorption seems to be most common. The method is applicable to many analytes, which do not have to be electroactive. The analytical signal is obtained by monitoring the change in the average electrode potential (calculated for either a cathodic or an anodic half-cycle) caused by an analyte interacting with the electrode. The analytical signal is proportional to the analyte concentration, within a concentration range extending over approximately 2 orders of magnitude.

Published

2006

7. Kinetics of sulfide ion adsorption at copper amalgam electrode

Author

Anna Basa, Tadeusz Krogulec, and Andrzej S. Baranski

Subjects

chemistry.chemical_classification, Sulfide, General Chemical Engineering, Activated complex, Inorganic chemistry, chemistry.chemical_element, Copper, Analytical Chemistry, Mercury (element), Adsorption, Reaction rate constant, chemistry, Desorption, Electrochemistry, Voltammetry

Abstract

Convolutive voltammetry was employed in studies of the kinetics of sulfide ion adsorption at copper amalgam and mercury electrodes. Measurements were carried out for low electrode coverages to minimize the effect of the lateral interaction energy, and the results were extrapolated to zero coverage. In the case of a Cu amalgam electrode (7.4×10−4 mol dm−3 of Cu) kinetic and thermodynamic parameters of the adsorption/desorption process were determined in solutions of different pH (3.6 to 12.8). For pH

Published

1999

8. The ac-voltammetric study of fast charge transfer processes in benzene solutions

Author

Krzysztof Winkler and Andrzej S. Baranski

Subjects

Supporting electrolyte, General Chemical Engineering, Analytical chemistry, Ionic bonding, Conductivity, Analytical Chemistry, Ion, Solvent, chemistry.chemical_compound, Electron transfer, Ferrocene, chemistry, Electrochemistry, Benzene

Abstract

Oxidation of ferrocene (Fc) and reduction of p-dicyanobenzene (DCB) were examined by ac-voltammetry in benzene solutions containing tetra-n-hexylammonium perchlorate at a hemispherical (Hg) and a disk (Au) μm-electrode, respectively. The specific conductivity of benzene solutions indicates that the degree of dissociation of the supporting electrolyte is less than 1%. The low concentration of free ions combined with the low dielectric permittivity of the solvent cause large double layer effects evident from the values of the charge transfer coefficients (0.35 and 0.69 for Fc and DCB, respectively). In addition, the low concentration of ions causes problems in measurements of charge transfer kinetics if the concentration of the depolarizer exceeds 0.2 mM. The standard rate constants obtained in benzene solutions (0.22 and 0.15 cm s−1 for Fc and DCB, respectively) are not much different from values observed in common polar solvents. Apparently, in benzene solutions, very weak electrical coupling of the activated state with solvent molecules is compensated by very strong interactions with counter ions and large double layer effects. The experimental results indicate the necessity of taking into account ionic relaxation processes in a theoretical description of interfacial charge transfer dynamics.

Published

1998

9. High-Frequency Impedance Spectroscopy of Platinum Ultramicroelectrodes in Flowing Solutions

Author

Lana J. Nelson, Parviz Norouzi, Andrzej S. Baranski, and Tadeusz Krogulec

Subjects

Data acquisition, chemistry, Electrode, Analytical chemistry, chemistry.chemical_element, Ultramicroelectrode, Platinum, Electrochemistry, Electrical impedance, Analytical Chemistry, Electronic circuit, Dielectric spectroscopy

Abstract

A method for studying impedance spectroscopy of micrometer-sized electrodes in the frequency range from 5 kHz to 5 MHz has been developed and tested. Details of the electronic circuit and the data processing method are provided. Since the method involves high-speed data acquisition and fast Fourier transformation, the impedance data can be obtained within a 5-ms time window. This enables measurement of changes in the electrode impedance caused by rapid changes in the solution composition. In particular, the method is well suited to studying the performance of electrochemical microdetectors in flowing solutions. The performance of the method was tested in a brief study of the competitive adsorption of hydrogen and methionine on a Pt ultramicroelectrode. It has been shown that proper electrochemical conditioning can prevent any long-term changes in the properties of the electrode caused by its exposure to common organic or inorganic substances. Hence, it provides means for making an ultramicroelectrode with...

Published

1998

10. Experimental factors in pulsed electrochemical detection in capillary electrophoresis

Author

R. M. Cassidy, Andrzej S. Baranski, and Jenny Wen

Subjects

Detection limit, Chromatography, Pulse (signal processing), Chemistry, Organic Chemistry, Analytical chemistry, General Medicine, Biochemistry, Amperometry, Analytical Chemistry, symbols.namesake, Capillary electrophoresis, Fourier analysis, Electrode, symbols, Waveform, Cyclic voltammetry

Abstract

A number of experimental approaches that should offer improved S/N in electrochemical detection were evaluated and compared. In addition, to evaluate and optimize the electrochemical response behavior of analytes under actual CE conditions, an on-line cyclic voltammetry (CV) system was developed. The experimental parameters examined included waveform shape, waveform frequency and various signal treatments, using a lock-in amplifier and Fourier analysis. A multiple-step pulse waveform provided the maximum S/N enhancement [up to 10-fold relative to pulse amperometric detection (PAD)], with detection limits in the range of 2·10−8 to 2·10−7 mol/l. The use of the second harmonic from Fourier analysis offered the best improvement in baseline stability. Other approaches such as high pulse frequency (100 to 200 Hz), data collection over selected time windows, digital filters and average smoothing also enhanced S/N 2- to 5-fold relative to PAD. On-line CV studies showed that the adsorption of organic electrolytes on electrode surfaces can inhibit O2 reactions, and thus give low and stable background currents without O2 removal. The CV studies also showed that detection of Pb2+, Cu2+ and Ag+ affected subsequent electrode response, and that H+ evolution contributed to the cathodic signals of the analytes Ni2+, Co2+ and Zn2+.

Published

1998

11. Square-Wave Voltammetry Detection for Capillary Electrophoresis

Author

Geoff C. Gerhardt, Richard M. Cassidy, and Andrzej S. Baranski

Subjects

Detection limit, Capillary electrophoresis, Chromatography, Chemistry, Electrode, Square wave voltammetry, Analytical chemistry, Square wave, Electrochemical detection, Voltammetry, Amperometry, Analytical Chemistry

Abstract

A square-wave voltammetry (SWV) detection method for capillary electrophoresis (CE) using end-capillary detection is investigated. Although sensitive detection methods have been reported using off-capillary electrochemical detection methods, these methods typically use fragile carbon fiber electrodes and complex decoupling apparatus to separate the high separation voltage from the detection electronics. While end-column detection systems are not usually as sensitive as off-column techniques, they require much simpler instrumentation and are more robust. By modifying the Osteryoung SWV method to accommodate the high-frequency sample rate required by CE, a detection limit of 5 × 10-7 M (S/N = 10) was obtained for dopamine using end-capillary detection, which is comparable to sensitivities obtained using off-capillary detection with amperometric detection.

Published

1998

12. Voltammetric determination of surface active compounds at Au and Pt ultramicroelectrodes in flowing solutions

Author

Andrzej S. Baranski and Parviz Norouzi

Subjects

Adsorption, chemistry, Organic Chemistry, Analytical chemistry, chemistry.chemical_element, Ultramicroelectrode, General Chemistry, Platinum, Catalysis

Abstract

A new detection method was developed that takes advantage of changes in cyclic voltammograms (recorded with either a platinum or a gold ultramicroelectrode) caused by the adsorption, of inorganic and organic molecules. These changes may include reduction or oxidation of the adsorbate, inhibition of oxygen adsorption, inhibition of hydrogen adsorption, and also changes in the charging current. The detection is carried out in a stripping mode after the accumulation of analyte on the electrode surface for 50–1000 ms. Typical scan rates are between 10 and 1000 V/s. Removal of oxygen from the solutions studied is not required. Electrochemical conditioning of the working electrode is sufficient to insure a stable response for a period of several hours. For strongly adsorbing molecules the linear dynamic range extends over two orders of magnitude from about 10−7 M to 10−5 M with the relative standard deviation for replicate determinations lower than 5%. The smallest discernable signal is associated with about 0.1% surface coverage, which corresponds to the adsorption of about 10−18 mol of analyte on a ultramicroelectrode 5 μm in radius. Keywords: adsorption, cyclic voltammetry, ultramicroelectrode, flow injection.

Published

1997

13. High frequency impedance measurements at ultramicroelectrodes

Author

Agata Szulborska and Andrzej S. Baranski

Subjects

Chemistry, business.industry, General Chemical Engineering, Double-layer capacitance, Analytical chemistry, Electrochemistry, Electrochemical cell, Inductance, Parasitic capacitance, Frequency dispersion, Optoelectronics, business, Electrical impedance, Electronic circuit

Abstract

Problems associated with electrochemical ac impedance measurements at frequencies up to 50MHz are discussed in detail. Limitations in the impedance measurements arise from inductance and stray capacitance of leads connecting electrochemical cell to a measuring circuit. Theoretical considerations indicate that the best accuracy of measurements can be achieved when working with ultramicroelectrodes 2.5 × 10−7 to 8 × 10−6cm2. Construction of ultramicroelectrodes suitable for such measurements and a diagram of the electronic circuit is described. Preliminary results showing frequency dispersion of the double layer capacitance and solution resistance and the kinetics of adsorption of n-butanol are presented.

Published

1996

14. Use of High-Frequency AC Voltammetry To Study Kinetics of Physical Adsorption at Mercury Ultramicroelectrodes

Author

Andrzej S. Baranski and Agata Moyana

Subjects

Chemistry, Kinetics, Inorganic chemistry, Analytical chemistry, Ultramicroelectrode, Surfaces and Interfaces, Activation energy, Condensed Matter Physics, Gibbs free energy, Hydrophobic effect, symbols.namesake, Reaction rate constant, Adsorption, Electrochemistry, symbols, General Materials Science, Voltammetry, Spectroscopy

Abstract

Adsorption kinetics of small organic molecules was studied by ac voltammetry with mercury ultramicroelectrodes in the frequency range 0.22-6.25 MHz. It was found that the activation energy of the adsorption process can be expressed as a linear combination of the electrical component of the standard free energy of adsorption (a major contribution) and the energy of lateral interactions (a minor contribution). The results suggest that, during the adsorption process, work against an electrical field must be performed before excess energy (due to the change in the hydrophobic interactions) is released. The final state is reached by a rotational and translational motion of the surfactant molecule. At the zero charge potential the rate constant reaches the maximum value of (4.6 ± 0.3) x 10 9 s -1 . This value indicates that the viscosity of interfacial water at mercury near the zero charge potential is about 1.7 times higher than the bulk viscosity.

Published

1996

15. Numerical simulation of kinetically controlled electrosorption processes under cyclic voltammetric conditions

Author

Agata Szulborska and Andrzej S. Baranski

Subjects

Chemistry, General Chemical Engineering, Activated complex, Kinetics, Valency, Thermodynamics, Analytical Chemistry, Adsorption, Chemical bond, Electrode, Electrochemistry, Physical chemistry, Molecule, Physics::Chemical Physics, Diffusion (business)

Abstract

The computations described in the paper are based on the Frumkin adsorption isotherm. Variation of the electrosorption valency with potential is taken into account. The rate-determining step can be either diffusion or interfacial kinetics. The kinetics of charge transfer associated with the formation of a chemical bond between an adsorbate and an electrode is described in terms of the Butler-Volmer equation. The effect of lateral interactions between adsorbed molecules and the activated complex is also considered. The presented dependences of the peak width and peak potential on the electrode coverage and the sweep rate allow the determination of various kinetic and thermodynamic parameters of the adsorption process. Computations were carried out for both linear and spherical symmetry of diffusion.

Published

1994

16. Kinetics and thermodynamics of thioglycol adsorption on mercury ultramicroelectrodes

Author

Andrzej S. Baranski and Agata Szulborska

Subjects

Aqueous solution, Chemistry, General Chemical Engineering, Activated complex, Kinetics, Analytical chemistry, Valency, Ultramicroelectrode, Flory–Huggins solution theory, Analytical Chemistry, Adsorption, Desorption, Electrochemistry, Physical chemistry

Abstract

A method for determination of the thermodynamic and kinetic parameters of electrosorption from fast sweep rate cyclic voltammograms was developed and tested using a simulation program. The method was then used for determination of the thioglycol adsorption kinetics on Hg in KOH and H 2 SO 4 aqueous solutions. Cyclic voltammetric experiments were carried out with a hemispherical Hg ultramicroelectrode (5 μm radius) at sweep rates ranging from 1000 to 100 000 V s −1 . The experimental data fit relatively well to a theoretical model based on the Frumkin adsorption isotherm, despite the fact that the current model assumes independence of the electrosorption valency and the interaction parameter of the potential and the electrode coverage, and that it neglects possible reorientation of adsorbed molecules on the surface with a change in electrode coverage and/or potential. It was found that the electrosorption valency for thioglycol in both solutions studied is similar and close to unity; the standard energies of adsorption are 2.93 and −46.6 kJ mol −1 in 1 M H 2 SO 4 and 1 M KOH respectively; the interaction parameters are −3670 J mol −1 (in 1 M H 2 SO 4 ) and 2450 J mol −1 (in 1 M KOH); the rates of adsorption and desorption steps extrapolated to the zero charge potential are k a 0 = 4.7 × 1O 5 s −1 , k d 0 = 9.8 × 10 6 s −1 (in 1 M H 2 SO 4 ) and k a 0 = 1.7 × 10 12 s −1 , k d 0 = 2.12 × 10 4 s −1 (in 1 M KOH). The interaction parameter for the activated complex in both studied solutions is 3000 J mol −1 larger than the corresponding interaction parameter of the product. The results are discussed in terms of participation of protons in the adsorption-desorption process and the effect of potential on the orientation of adsorbed molecules.

Published

1994

17. Fourier transform square-wave voltammetry

Author

Agata Szulborska and Andrzej S. Baranski

Subjects

Admittance, Chemistry, General Chemical Engineering, Fast Fourier transform, Dropping mercury electrode, Analytical Chemistry, Solution of Schrödinger equation for a step potential, Superposition principle, symbols.namesake, Fourier transform, Electrode, Electrochemistry, symbols, Waveform, Atomic physics

Abstract

In this technique a potential excitation waveform is obtained by a superposition of a small amplitude square-wave modulation on a staircase function. The square-wave cycle is repeated several times (usually 16) at each potential step. The electrode response is sampled at even time intervals 2 n (where n = 2, 3, 4…) times per square-wave cycle, and the fast Fourier transform of the electrode response at each potential step is performed. This allows the electrode admittance to be calculated for various odd harmonic frequencies and plotted as a function of the staircase potential. In addition, the average current at each potential step as well as the even harmonic response generated by non-linearity of the studied system can be obtained from collected data. The admittance data are almost identical with those obtained from traditional ac voltammetric experiments, but the equipment is less expensive and the experiments are run much faster and provide more information. The technique was tested by studying kinetics of Cd 2+ reduction from NH 4 + | NH 3 (aq) buffer on the static mercury electrode. Experimental results were compared with those obtained by digital simulation. Diagrams of electronic circuits used in the experiments are also presented.

Published

1994

18. Voltammetric study of ammonium amalgam

Author

Andrzej S. Baranski and Wenzhe. Lu

Subjects

inorganic chemicals, Aqueous solution, Chemistry, General Chemical Engineering, Inorganic chemistry, chemistry.chemical_element, Electrochemistry, Alkali metal, Analytical Chemistry, Mercury (element), chemistry.chemical_compound, Reaction rate constant, Standard electrode potential, Ammonium, Cyclic voltammetry

Abstract

Ammonium amalgam formation has been studied at mercury ultramicroelectrodes in various organic solvents and at standard size mercury electrodes in aqueous solution. Numerical simulations were carried out in order to establish the kinetics of the process. Ammonium amalgam is formed via a fast charge-transfer process, but it undergoes a decomposition according to the first-order rate law with a rate constant of about 0.6 s−1. In addition, some NH4+ ions are irreversibly discharged at the electrode surface, presumably to form H2 and NH3. This competing process is affected strongly by the nature of the solvent. Matching of experimental and simulated curves suggests that the diffusion coefficient of NH4 in mercury is about 1.8 × 10−5 cm2 s−1. The standard potential of NH4+(aq)/NH4(Hg) was determined to be −1.723 V/SHE. The absolute chemical potential of ammonium ions in mercury was calculated and compared with that of alkali metal ions.

Published

1993

19. End-column electrochemical detection for inorganic and organic species in high-voltage capillary electrophoresis

Author

R. M. Cassidy, Andrzej S. Baranski, and Wenzhe. Lu

Subjects

Detection limit, Chromatography, Capillary action, Chemistry, Organic Chemistry, Analytical chemistry, Ultramicroelectrode, General Medicine, Electrolyte, Biochemistry, Analytical Chemistry, Microelectrode, Electrophoresis, Capillary electrophoresis, Electrode

Abstract

The electronics and construction for an end-column ultramicroelectrode (3–10 μm) detection system that permits the use of medium-sized capillaries (25 μm I.D.) without appreciable effects from the potential field at the end of the capillary. Normal peak-to-peak noise over 10 s was 0.01–0.1 pA. The background noise observed for a 200 × μm carbon-fiber electrode placed either 180 μm within a 25-μm capillary or at a point 500 μm away from the capillary was essentially the same. A study of detector response as a function of the position of the electrode has shown that accurate location of the electrode is important for sensitive and reproducible detection. These studies also showed that differences between the density of the electrolyte existing the capillary and the electrolyte in the detection cell could cause anomalous electrode response depending on the location of the electrode relative to the end of the capillary. Application of a carbon fiber or an Hg film electrode gave detection limits (twice the peak-to-peak noise over 10 s) of 2 · 10−8 mol/l for Pb2+, 1 · 10− 5 mol/l for NO2− and 5 · 10−10 mol/l for catechol.

Published

1993

20. Ac voltammetric measurements of fast charge-transfer processes at ultramicroelectrodes

Author

Andrzej S. Baranski and Krzysztof Winkler

Subjects

Supporting electrolyte, General Chemical Engineering, Inorganic chemistry, Concentration effect, Ultramicroelectrode, Electrochemistry, Analytical Chemistry, chemistry.chemical_compound, Reaction rate constant, chemistry, Cobaltocene, Electrode, Cyclic voltammetry

Abstract

The methodology for carrying out ac voitammetric measurements with ultramicroelectrodes is discussed. Electron-transfer rate constants for the oxidation of ferrocene (FeCp2) at a Pt ultramicroelectrode and cobaltocene (CoCp2) at Hg, Au and Pt ultramicroelectrodes were measured at frequencies from 2 to 50 kHz. It was shown that the method can provide accurate information about fast interfacial charge-transfer kinetics in organic solvents. The rate of CoCp2 oxidation on Hg or Au electrodes was found to increase with a decrease in the supporting electrolyte concentration, but in the case of the Pt electrode no effect of the supporting electrolyte concentration was observed for oxidation of either CoCp2 or FeCp2. The state of the Pt—solution interface was examined by studying the H+ adsorption—desorption process in aqueous H2SO4 and the double-layer capacitance in nonaqueous media.

Published

1993

21. Electrodeposition of alkali metals on solid and liquid mercury electrodes

Author

Wenzhe. Lu and Andrzej S. Baranski

Subjects

Chemistry, General Chemical Engineering, Inorganic chemistry, Nucleation, Intermetallic, chemistry.chemical_element, Chronoamperometry, Underpotential deposition, Alkali metal, Electrochemistry, Analytical Chemistry, Mercury (element), Cyclic voltammetry

Abstract

Electrodeposition of alkali metals on Hg/Au electrodes from non-aqueous solutions was studied using cyclic voltammetry and chronoamperometry. At temperatures of 20 to − 70°C the formation of bulk intermetallic compounds preceded by nucleation phenomena was observed. Stoichiometry of the solid phases formed under these conditions was determined. At very low temperatures, when the mobility of mercury atoms was restricted, the underpotential deposition of alkali metal ions on solid mercury electrodes was noted. The Gibbs energies of electrosorption are discussed in terms of interactions between alkali metals and mercury.

Published

1992

22. New experimental evidence concerning the magnitude of the activation parameters for fast heterogeneous electron transfer reactions

Author

Krzysztof Winkler, Andrzej S. Baranski, and W. Ronald Fawcett

Subjects

chemistry.chemical_compound, Transition metal, Ferrocene, chemistry, Inorganic chemistry, Magnitude (astronomy), Kinetics, chemistry.chemical_element, Ultramicroelectrode, Electrochemistry, Platinum, Metallocene

Published

1991

23. On solute-mercury interactions in dilute amalgams of main group metals

Author

Andrzej S. Baranski

Subjects

symbols.namesake, chemistry, Main group element, education, Inorganic chemistry, symbols, Intermetallic, chemistry.chemical_element, Mole fraction, Mercury (element), Gibbs free energy

Abstract

The paper challenges the concept of intermetallic compound formation in dilute (mole fraction

Published

1991

24. On possible systematic errors in determinations of charge transfer kinetics at very small electrodes

Author

Andrzej S. Baranski

Subjects

Systematic error, Work (thermodynamics), Chemistry, Electrode, Kinetics, Charge (physics), Ultramicroelectrode, Signal, Electrode kinetics, Computational physics

Abstract

This work may signal a breakthrough in studies of electrode kinetics; however, the proposed methodology should be carefully scrutinized to avoid potential errors in the interpretation of data

Published

1991

25. Optimization of ac voltammetric measurements at ultramicroelectrodes

Author

Andrzej S. Baranski

Subjects

Parasitic capacitance, Chemistry, Double-layer capacitance, Electrode, Analytical chemistry, Equivalent circuit, Ultramicroelectrode, Conductivity, Voltammetry, Electrode potential

Abstract

The precision of activation resistance measurements under ac voltammetric conditions was theoretically examined. In particular effects of the electron transfer rate constant, solution conductivity, double layer capacitance, stray capacitance of the circuit, electrode size, reactant concentration, frequency and electrode potential were analyzed. The results allow selection of optimal conditions for the determination of charge transfer kinetics from ac impedance experiments carried out with ultramicroelectrodes. It has been shown that in some systems the determination of rate constants up to 100 cm/s may be possible.

Published

1991

26. On the formation and oxidation of a heterogeneous amalgam of iron

Author

Krzysztof Winkler, Andrzej S. Baranski, Zbigniew Galus, and Tadeusz Krogulec

Subjects

chemistry.chemical_compound, chemistry, Saturated calomel electrode, Hanging mercury drop electrode, Inorganic chemistry, chemistry.chemical_element, Mercury beating heart, Cyclic voltammetry, Chronoamperometry, Electrochemistry, Sodium amalgam, Mercury (element)

Abstract

Electrode processes involving the formation of a heterogeneous amalgam of iron during the electroreduction of Fe(II) ions on mercury and the oxidation of the iron amalgam were investigated by cyclic voltammetry, chronoamperometry and cyclic chronopotentiometry. The hanging mercury drop electrode and an iron plate placed on a mercury pool electrode were used in the experiments as working electrodes. It was established that particles of the electrodeposited iron are wetted by mercury and penetrate into the bulk of mercury electrodes forming a suspension. However, during electroreduction of Fe(II) ions from concentrated CaCl2 and Ca(ClO4)2 solutions a small amount of metallic iron remains on the surface of mercury. Oxidation of the heterogeneous amalgam of iron occurs at potentials about 100–150 mV less positive than the onset potential of mercury oxidation in the solutions studied. At these potentials oxidation of mercury may become significant enough to uncover some parts of the iron microcrystals. These iron particles become partially passivated and their surface energy at the Fe/solution interface decreases; consequently, the spreading coefficient of mercury on iron decreases, microcrystals of iron are expelled from mercury and finally oxidized.

Published

1990

27. Cyclic chronopotentiometric determination of sugars at Au and Pt microelectrodes in flowing solutions

Author

Anna Basa, Andrzej S. Baranski, Jolanta Magnuszewska, and Tadeusz Krogulec

Subjects

Chromatography, Chemistry, Capillary action, Organic Chemistry, Analytical chemistry, Carbohydrates, chemistry.chemical_element, Electrophoresis, Capillary, Reproducibility of Results, General Medicine, Biochemistry, Analytical Chemistry, Microelectrode, Capillary electrophoresis, Transition metal, Gold, Platinum, Polarization (electrochemistry), Quantitative analysis (chemistry), Ohmic contact, Microelectrodes

Abstract

The main advantage of the application of cyclic chronopotentiometry (CCP) in end-column CE detection arises from the fact that the detection parameters and the magnitude of the analytical signal are (in contrast with other electrochemical detection methods) independent of the ohmic polarization of the solution caused by the separation current at the detection end of the capillary. CCP was used to determine sugars on platinum and gold microelectrodes after separation by CE. The results obtained with a gold microelectrode were better. Subsequently this detection method was used for quantitative determination of sugars in honeys and for their authentication.

Published

2006

28. High frequency faradaic rectification voltammetry at microelectrodes

Author

Andrzej S. Baranski and Piotr M. Diakowski

Subjects

Microelectrode, Electron transfer, Aqueous solution, Rectification, Chemistry, Faradaic current, Electrode, Materials Chemistry, Analytical chemistry, Radius, Physical and Theoretical Chemistry, Voltammetry, Surfaces, Coatings and Films

Abstract

An experimental setup for carrying out faradaic rectification measurements at micrometer-sized electrodes under potential control is described. A new method of data analysis is proposed that allows the determination of the standard rate constant and the electron-transfer coefficient of a fast charge transfer process without knowing the impedance of the microelectrode. This method is based on the frequency dependence of the shape of the faradaic rectification voltammograms (i.e., the average width of the peaks and the ratio of the peak heights) rather than on the magnitude of the faradaic rectification signal. The method was tested in the determination of heterogeneous electron transfer kinetics of Fe(CN)6(3-/4-) and Ru(NH3)6(2+/3+) in aqueous solutions on a platinum microelectrode (12.5 microm in radius) and ferrocene/ferrocinum redox couple in a dimethylformamide solution on a gold microelectrode (12.5 microm in radius).

Published

2006

29. Application of AC impedance techniques to Scanning Electrochemical Microscopy

Author

Piotr M. Diakowski and Andrzej S. Baranski

Subjects

business.industry, Supporting electrolyte, Chemistry, Analytical chemistry, Substrate (electronics), Condensed Matter Physics, Electrochemistry, law.invention, Scanning electrochemical microscopy, law, Optoelectronics, Equivalent circuit, General Materials Science, Electrical and Electronic Engineering, business, Alternating current, Electrical conductor, Electrical impedance

Abstract

Fundamental aspects of alternating current Scanning Electrochemical Microscopy (AC-SECM) have been studied. In particular, the flow of AC currents in the cell and simplified equivalent circuit diagrams are discussed. In the case of conductive substrates, the local (1st and 2nd order) impedance characteristic of the substrate is presented as a function of DC potential. 3-D imaging of mixed substrates (containing both conductive and non-conductive areas) was performed in the supporting electrolyte alone, without an added redox mediator.

Published

2004

30. Adsorption-based electrochemical detection of nonelectrochemically active analytes for capillary electrophoresis

Author

R. M. Cassidy, Geoff C. Gerhardt, and Andrzej S. Baranski

Subjects

Detection limit, Analyte, Adsorption, Capillary electrophoresis, Chromatography, Ionic strength, Chemistry, Electrode, Electrolyte, Voltammetry, Analytical Chemistry

Abstract

A sensitive electrochemical detection method (ECD) for capillary electrophoresis has been developed that is applicable to a much wider range of analytes than more conventional ECD methods. Using a modified Osteryoung square-wave voltammetry method, the adsorption of what are normally considered nonelectrochemically active analytes onto a platinum electrode was found to produce a concentration-proportional response. Although the mechanisms that cause this response may be complex, it appears that it is due to changes in the electrode/solution interface that accompany adsorption of the analyte onto the electrode rather than a simple redox process. Analytes that possess pi-electron density appeared to chemisorb rather than only physically adsorb onto the electrode and gave the best response with detection limits of < 10(-8) M while maintaining good linearity. Because this detection method requires only that the analyte adsorb onto the electrode, it has the advantage of much wider applicability than previously reported electrochemical detection methods. The applicability of this detection method was investigated for a variety of analytes and background electrolyte conditions (varied pH, ionic strength, buffer additives). Comparisons of the sensitivity of this method to UV detection showed that, even for analytes that have good UV chromophores, sensitivities greater than 1 order of magnitude were obtained using adsorption-based electrochemical detection.

Published

2000

31. ChemInform Abstract: Recovery of Arenes (II) Containing Keto or Ester Groups by the Electrochemical Reduction of Their Respective Cyclopentadienyliron Complexes (I)

Author

A. Piorko, Andrzej S. Baranski, R.G. Sutherland, and Alaa S. Abd-El-Aziz

Subjects

Reduction (complexity), Chemistry, General Medicine, Electrochemistry, Medicinal chemistry

Published

1990

32. Application of AC impedance techniques to Scanning Electrochemical Microscopy.

Author

Andrzej S. Baranski and Piotr M. Diakowski

Subjects

SCANNING electrochemical microscopy, SCANNING probe microscopy, ALTERNATING currents, THREE-dimensional imaging, IMAGING systems

Abstract

Fundamental aspects of alternating current Scanning Electrochemical Microscopy (AC-SECM) have been studied. In particular, the flow of AC currents in the cell and simplified equivalent circuit diagrams are discussed. In the case of conductive substrates, the local (1 st and 2 nd order) impedance characteristic of the substrate is presented as a function of DC potential. 3-D imaging of mixed substrates (containing both conductive and non-conductive areas) was performed in the supporting electrolyte alone, without an added redox mediator. [ABSTRACT FROM AUTHOR]

Published

2004

33. Potentiometric stripping determination of heavy metals with carbon fiber and gold microelectrodes

Author

Andrzej S. Baranski and Henry. Quon

Subjects

Detection limit, Microelectrode, Trace Amounts, Chemistry, Inorganic chemistry, Electrode, Potentiometric titration, Analytical chemistry, Nucleation, chemistry.chemical_element, Copper, Analytical Chemistry, Mercury (element)

Abstract

The determination of Cd, Pb, and Cu with mercury film microelectrodes (4 x 10 X to 2 x 10 V cmS surface area) was examined. It was demonstrated that carbon fiber microelectrodes are suitable for multicomponent trace analysis of very small (5- L) samples. Various processes occurring at microelectrodes such as charging of the double layer, poisoning of the electrodes, and nucleation processes are also discussed in terms of their effect on the detection limit and precision of the method. 18 references, 7 figures.

Published

1986

34. Medium effects in the electroreduction of alkali metal cations

Author

W. Ronald Fawcett and Andrzej S. Baranski

Subjects

Chemistry, Inorganic chemistry, Alkali metal

Published

1978

35. The mechanism of electrodeposition of cadmium sulphide on inert metals from dimethylsulphoxide solution

Author

A.C. McDonald, Andrzej S. Baranski, and W.R. Fawcett

Subjects

Metal, Polarography, Transition metal, Chemistry, visual_art, Monolayer, Inorganic chemistry, visual_art.visual_art_medium, chemistry.chemical_element, Cyclic voltammetry, Electroplating, Platinum, Electrochemistry

Abstract

The mechanism, of electrodeposition of CdS on Hg, and Pt electrodes has been studied in dimethylsulphoxide solutions by performing cyclic voltammetry at stationary electrodes and pulse polarography at dropping Hg electrodes in solutions containing both Cd(II) ions and elemental sulphur. Evidence is presented to demonstrate that sulphur is chemisorbed at these electrodes and that formation of at least a monolayer of metal sulphide is probable. As a result, formation of the initial layer of CdS involves reaction of Cd(II) ions with chemisorbed sulphur or with a pre-existing layer of metal sulphide. Data for the formation of CdS are compared with those obtained for the formation of PbS and ZnS.

Published

1984

36. Deconvolution of voltammetric measurements from the slow response of current transducers

Author

Andrzej S. Baranski and Wenzhe. Lu

Subjects

Microelectrode, symbols.namesake, Transducer, Fourier transform, Chemistry, Bandwidth (signal processing), Analytical chemistry, symbols, Deconvolution, Cyclic voltammetry, Electrical impedance, Order of magnitude, Computational physics

Abstract

Voltammetric data obtained at high sweep rates (> 10 kV/s) are usually distorted by the slow response of current transducers. An efficient correction of numerically acquired data can be accomplished by employing forward and inverse Fourier transform as well as the convolution transform. This method can be applied to any electrochemical experiment and it increases the effective bandwidth of current transducers by about one order of magnitude. An example of application in kinetic studies is given.

Published

1989

37. Electrochemical studies of η5-cyclopentadienyliron hexafluorophosphates of η6-substituted arenes and η6-heterocycles

Author

Alaa S. Abd-El-Aziz, A. Piorko, Andrzej S. Baranski, and Ronald G. Sutherland

Subjects

Polarography, Inorganic chemistry, Electrochemistry, Medicinal chemistry, Inorganic Chemistry, chemistry.chemical_compound, Electron transfer, Delocalized electron, Reaction rate constant, chemistry, Sandwich compound, Materials Chemistry, Dimethylformamide, Physical and Theoretical Chemistry, Cyclic voltammetry

Abstract

Polarographic half-wave potentials for two reduction steps of 49 cyclopentadienyliron complexes of substituted arenes or heterocycles in dimethylformamide were determined. A fast cyclic voltammetry (10–40 V/s) was used to study the electron transfer kinetics of some of these complexes. After correction for the double layer effects, the rate constants of all the complexes studied show that the transfer of electrons in the second reduction step occurs significantly faster than in the first one. This was interpreted as a result of greater delocalization of electrons in the 20-electron complexes of iron compared to the 19-electron complexes.

Published

1988

38. Rapid anodic stripping analysis with ultramicroelectrodes

Author

Andrzej S. Baranski

Subjects

Microelectrode, Anodic stripping voltammetry, Stripping (chemistry), Chemistry, Analytical chemistry, Analytical Chemistry, Anode, Nuclear chemistry

Abstract

Les proprietes de ces microelectrodes permettent la determination de Pb(II) et Cd(II) sans desoxygenation des echantillons. Limites de detection 5•10 −9 M apres une duree de preconcentration de 10 s

Published

1987

39. Medium effects in the electroreduction of cyanobenzenes

Author

W.R. Fawcett and Andrzej S. Baranski

Subjects

chemistry.chemical_compound, Reaction rate constant, Hexamethylphosphoramide, chemistry, Inorganic chemistry, Kinetics, Activation energy, Electrolyte, Dropping mercury electrode, Polarization (electrochemistry), Ion

Abstract

The kinetics of electroreduction of cyanobenzene, o-dicyanobenzene and p-dicyanobenzene at a dropping mercury electrode have been studied in various perchlorate salt solutions in dimethylformamide and hexamethylphosphoramide using a phase sensitive a.c. admittance technique. The standard rate constants, ks, were found to depend on the nature and concentration of the salt but there was no evidence for ion pair formation between the product anion radical and the cation of the electrolyte. The heat of activation for the electroreduction of the dicyanobenzenes determined by measuring the temperature dependence of ks in the range −12 to 36°C was independent of cation nature in the case of the ortho-compound but varied with electrolyte cation in the case of the para-compound. On the basis of a detailed analysis of medium effects it is concluded that the reaction site for these species is close to the outer Helmholtz plane, the dipolar reactants being oriented in the electrode's field. The dependence of the free energy of activation on the size of ions in the reaction environment, on their interaction with the transition state, and on polarization energy is discussed in detail.

Published

1979

40. Preparative Electrochemical Liberation of Arenes and Heterocycles from Their Respective Ironcyclopentadienyl Complexes

Author

Choi Chuck Lee, Alaa S. Abd-El-Aziz, Ronald G. Sutherland, Andrzej S. Baranski, and A. Piorko

Subjects

Electrolysis, law, Chemistry, Organic Chemistry, Inorganic chemistry, Organic chemistry, Liberation, Sublimation (phase transition), Pyrolytic carbon, Electrochemistry, law.invention

Abstract

Electrolysis of arene and heterocycle cyclopentadienyliron hexafluorophosphates led to the liberation of arenes or heterocycles in 69–90% yield. The procedure described gives yields comparable with or superior to the yields obtained from pyrolytic sublimation used previously.

Published

1989

41. Recovery of Arenes Containing Keto or Ester Groups by the Electrochemical Reduction of Their Respective Cyclopentadienyliron Complexes

Author

Ronald G. Sutherland, Andrzej S. Baranski, Alaa S. Abd-El-Aziz, and A. Piorko

Subjects

Reduction (complexity), chemistry.chemical_compound, Chemistry, Organic Chemistry, Benzophenone, Liberation, Organic chemistry, Electrochemistry

Abstract

Electrochemical reduction of the cyclopentadienyliron hexafluorophosphates of benzophenone, o-chlorophenyldibenzoylmethane and diethyl ethylphenylmalonate led to the liberation of arenes without reduction of keto or ester groups in over 85% yields.

Published

1989

42. ChemInform Abstract: Electrochemical Studies of η5-Cyclopentadienyliron Hexafluorophosphates of η6-Substituted Arenes and η6-Heterocycles

Author

A. Piorko, Andrzej S. Baranski, Alaa S. Abd-El-Aziz, and Ronald G. Sutherland

Subjects

Polarography, Delocalized electron, chemistry.chemical_compound, Electron transfer, Reaction rate constant, Chemistry, Kinetics, Dimethylformamide, General Medicine, Cyclic voltammetry, Electrochemistry, Medicinal chemistry

Abstract

Polarographic half-wave potentials for two reduction steps of 49 cyclopentadienyliron complexes of substituted arenes or heterocycles in dimethylformamide were determined. A fast cyclic voltammetry (10–40 V/s) was used to study the electron transfer kinetics of some of these complexes. After correction for the double layer effects, the rate constants of all the complexes studied show that the transfer of electrons in the second reduction step occurs significantly faster than in the first one. This was interpreted as a result of greater delocalization of electrons in the 20-electron complexes of iron compared to the 19-electron complexes.

Published

1988

43. ChemInform Abstract: Preparative Electrochemical Liberation of Arenes and Heterocycles from Their Respective Iron Cyclopentadienyl Complexes

Author

Choi Chuck Lee, A. Piorko, Alaa S. Abd-El-Aziz, R.G. Sutherland, and Andrzej S. Baranski

Subjects

Cyclopentadienyl complex, Chemistry, Polymer chemistry, Liberation, General Medicine, Electrochemistry

Published

1989

44. Electroreduction of alkali metal cations. Part 2.—Effects of electrode composition

Author

Andrzej S. Baranski and W. Ronald Fawcett

Subjects

General Chemistry

Published

1982