Determination of triazine pesticides by high-performance liquid chromatography with swept-potential electrochemical detection

A swept-potential electrochemical detector, operating in the square-wave voltammetric mode, is used to detect a mixture of five triazine pesticides separated on a reverse-phase resin column. Limits of detection are below 1 ng injected. Two compounds, not completely separated by the column, are resolved on the potential axis.     

A swept-potential electrochemical detector for flow streams

An instrument has been designed, constructed, and evaluated for electrochemical measurements in flow streams. The instrument is basically a computer-controlled potentiostat with features which are necessary for measurements in flow streams. These features include real-time graphics display, rapid transfer of data to disk storage, automated compensation for IR drop, and automated d.c. current offset. The instrument can be programmed to operate in several modes, but the primary mode of operation is rapid-sweep square-wave voltammetry. Programs are available for post-run processing of the data and display of any desired voltammogram or current vs. time plot. Any alphanumeric or display of any desired can be copied on a dot-matrix printer. Performance evaluations in unstirred solutions indicate limits of detection of less than 1 × 10^?9 M in favorable cases.     

Application of a swept-potential electrochemical detector in the liquid-chroamtographic determination of nitrosamines

A swept-potential detector, operating in the square-wave voltammetric mode, is used in the liquid-chromatographic determination of a mixture of eight nitrosamines. Only three compounds were completely separated by the C-18 column. Three more were resolved by educing constant-potential chromatograms from the computer buffer. Mathematical deconvolution via fast-Fourier transform was applied to the remaining components.     

An electrochemical detector with a dropping mercury electrode for high-performance liquid chromatography

The electrochemical flow-through cell described has an active volume of less than 1 μl, and incorporates a dropping mercury electrode with drop times of about 0.05 s. Its performance as a detector for high-performance liquid chromatography is assessed for p-nitrophenol and nitrobenzene. The detection limits are 4–5 ng; the relative standard deviation of the peak height is better than 5% for the range 5–150 ng. The dependence of the response on flow rate, mercury pressure and drop time is described.     

High-performance liquid chromatography of azobenzene derivatives with spectrophotometric and electrochemical detection

The chromatographic behaviour of azobenzene and fourteen of its derivatives was studied by reversed-phase high-performance liquid chromatography with a C18 stationary phase. The optimal composition of the mobile phase is 9:1 methanol-0.01 M aqueous sodium dihydrogen phosphate which is 0.0002 M in ethylenediaminetetraacetic acid, with a pH of 4.5. The solutes can be detected spectrophotometrically, voltammetrically or polarographically. Spectrophotometric measurement in the visible range is more sensitive than in the UV range (detection limits of 0.04-0.1 ng at 410 nm compared with 0.3-0.5 ng at 265 nm). Voltammetric detection is highly sensitive for hydroxy and amino derivatives [detection limits 0.02-0.09 ng at +0.8 V (Ag-AgCl)], whereas for other substances the detection limits are a few nanograms. Polarographic detection is the least sensitive [detection limits 4-8 ng at -0.6 V (Ag-AgCl)]. All the calibration graphs exhibit good linearity, but spectrophotometric detection yields a wider linear dynamic range. Voltammetric detection is more precise at low solute concentrations (relative standard deviations of the peak heights 0.5-1.0% and 1.0-1.5% for voltammetric and spectrophotometric detection, respectively, with amounts of solute from 1 to 10 ng).     

High-performance liquid chromatography with electrochemical detection of gossypol in human plasma

A sensitive and selective high-performance liquid chromatographic method with electrochemical detection for the determination of gossypol in human plasma is described. Glutathione is used as a protective agent and gossypol dimethyl ether as an internal standard. Acetonitrile-treated protein-free plasma sample is first introduced on to a C18 pre-column for enrichment and clean-up. By using a column-switching technique, gossypol and the internal standard are subjected to further separation on a C8 analytical column, while the major interfering components are eliminated before entering the column. Methanol-0.1 M citrate buffer (pH 3.2) (80:20) is used as the mobile phase. The detector potential on the glassy carbon electrode is maintained at +0.6 V vs. an Ag-AgCl reference electrode. The linearity with human plasma ranged from 5 to 250 ng/ml. The absolute recoveries of gossypol and gossypol dimethyl ether were 91.3 and 97.5%, respectively, with a within-day precision of 2.5% and a day-to-day precision of 3.8%. The limit of detection is 5 ng/ml (signal-to-noise ratio = 3:1). The method is considered to be suitable for the clinical pharmacokinetic studies of gossypol.     

Determination of water-soluble vitamins by liquid chromatography with a parallel dual-electrode electrochemical detector

A method for the determination of water-soluble vitamins (ascorbic acid, pyridoxine hydrochloride, pyridoxal hydrochloride, pyridoxamine dihydrochloride, p-aminobenzoic acid, folic acid) by liquid chromatography, with a parallel dual-electrode electrochemical detector, is described. One electrode was controlled at +0.80 V (vs. SCE), the other at +1.20 V (vs. SCE). The possibility of interference by eight other water-soluble vitamins (riboflavin, nicotinamide, cyanocobalamin, menadione, dextro calcium pantothenate, thiamine, nicotinic acid, dextro biotin) was studied. These vitamins did not interfere when a parallel dual-electrode detector system was used. The estimation of five of the vitamins was studied in detail. The linear ranges found were 10 ng-1.2 mug for pyridoxine hydrochloride, 2 ng-2mug for pyridoxal hydrochloride, 10 ng-3 mug for pyridoxamine dihydrochloride, 5-200 ng for folic acid and 0.6-200 ng for p-aminobenzoic acid, the limits of detection being 3, 0.6, 1, 2 and 0.06 ng respectively. Application of the technique to the estimation of vitamin B(6) in tablets is illustrated. The results indicate that the vitamin B(6) in these tablets existed in the pyridoxine hydrochloride form and the B(6) content agreed well with liquid chromatograph by spectrophotometric analysis.     

High-performance liquid chromatography with electrochemical detection for analysis of gliclazide in plasma

A sensitive HPLC-electrochemical detection method was developed for the analysis of gliclazide (GL) in human plasma. After deproteination of 100 microL of plasma by acetonitrile, evaporation, and reconstitution, GL was separated on a C18 column (150 mm x 4.6 mm) by the mobile phase (70 mM disodium tetraborate, pH 7.5, containing 26.5% of acetonitrile). The regression equations were linear (r> 0.9990) over the range of 50 nM to 4.00 microM. The precision and accuracy of intra- and inter-day analysis were less than 5.3 and 0.93% for relative standard deviation and relative error, respectively. The limit of detection for plasma was 10 nM for GL (S/N = 3, 10 microL injection). This newly developed method was applied for monitoring blood levels with one healthy volunteer dosing with a GL tablet.     

Band broadening in a wall-jet type electrochemical detector for liquid chromatography

Band broadening in a large volume wall-jet cell electrochemical detector for liquid chromatography has been studied. Two regimes of stable operation were found which correlated well with the formation of smooth flow patterns. Smooth flow is also found to be important for avoiding erroneous results caused by backmixing.     

A thin-layer electrochemical detector coated with nafion film for liquid chromatography

The selectivity and analytical application of a thin-layer electrochemical detector comprised of glassy carbon electrode coated with Nafion film were investigated. As a result of the ion-exchange characteristics of the Nafion polymer, the selectivity and stability were improved greatly. The coated electrode has a good response only for cations with the same sensitivity as an uncoated (bare) electrode, but not for anions, and the response for neutral molecules is decreased three-fold. The diffusion of electroactive compounds in Nafion film is discussed based on the results of flow injection experiments. The peak current at the coated electrode was independent of the flow-rate of the mobile phase. Electrode poisoning due to protein adsorption was minimized. The use of 30% methanol or 10% acetonitrile in the mobile phase did not affect the performance of the coated electrode. Various analytes having three kinds of charge state, i.e., anionic, cationic and neutral, were tested. Liquid chromatography with electrochemical detection of ascorbic acid, norepinephrine, epinephrine, dopamine and uric acid was demonstrated.     

Novel carbon-fibre electrochemical detector for use in liquid chromatography

The preparation and application of a novel carbon-fibre flow electrode used in liquid chromatography are reported. The electrode is simple and flexible, easy to prepare and to change and is stable in organic solvents. Heat sealing of the needle holes holding the carbon fibre in the polyethylene cell tube prevents the mobile phase from leaking through the holes. A stable and repeatable response has been obtained. The detection limit for 3,5-orcinol and 2,7-dihydroxynaphthalene was ca. 1 ng.     

Forced-flow liquid chromatography with a coulometric detector

A tubular platinum electrode packed with small chips of platinum is described which was shown to function with 100% electrolytic efficiency. Application of the electrode is described for the coulometric determination of electroactive species in the effluent from a liquid chromatograph. Cu and Fe were determined in a series of standards. An average relative deviation of less than 2 ppt was obtained for analysis of samples containing 5 mug of Cu(II) and 5 mug of Fe(III).     

Rapid-scanning electrochemical detector with micro working electrode for micro high-performance liquid chromatography

Summary A voltammetric system controlled by a personal computer was developed using a PC-8801 mk II computer (NEC, Tokyo, Japan) for rapid-scanning voltammetry. The system was combined with an ultra-small-volume electrolytic cell with a single-carbon-fiber (7-μm diameter and 3-mm length) working electrode and used as a new detector for micro high-performance liquid chromatography. The system's capability for the detection of catecholamines and their related compounds was investigated. Three-dimensional voltamo-chromatograms were obtained by adding the potential axis of the electrode to the conventional current and time axes, leading to a dramatic improvement in the identification of each chroamtographic peak.     

High-performance liquid chromatography with electrochemical detection of buprenorphine and its major metabolite in urine

A procedure was developed for the simultaneous determination of buprenorphine and its major metabolite. N-desalkylbuprenorphine, by reversed-phase high-performance liquid chromatography with electrochemical detection. The detection limit is about 100 pg/ml for the major metabolite and 250 pg/ml for buprenorphine.     

High-performance precipitation liquid chromatography

High-performance precipitation liquid chromatography is based upon solubility differences and thus especially appropriate for polymers which have a narrow solubility window. The technique offers new possibilities for the analysis of copolymers according to their chemical composition distribution and can be used in combination with size-exclusion separation for chromatographic cross-fractionation.     

High-performance liquid chromatography of alkaloids

Literature information on the HPLC of alkaloids, including adsorption, reversed-phase, ion-exchange, ion-pair, and other variants is generalized. Results are given of the chromatographic analysis of various classes of alkaloids with an indication of the conditions of separation, and the columns used, and also of the methods of detection. The advantages and disadvantages of the HPLC variants are discussed. The review includes the literature over the last 14 years. Scientific Center for Chromatography, Institute of Chemistry and Physics of Polymers, Uzbek Academy of Sciences, Tashkent. Institute of the Chemistry of Plant Substances, Uzbek Academy of Sciences, Tashkent. Translated from Khimiya Prirodnykh Soedinenii, No. 5, pp. 595–613, September–October, 1991.     

High-performance liquid chromatography of alkaloids

Literature information on the HPLC of alkaloids, including adsorption, reversed-phase, ion-exchange, ion-pair, and other variants is generalized. Results are given of the chromatographic analysis of various classes of alkaloids with an indication of the conditions of separation, and the columns used, and also of the methods of detection. The advantages and disadvantages of the HPLC variants are discussed. The review includes the literature over the last 14 years.Scientific Center for Chromatography, Institute of Chemistry and Physics of Polymers, Uzbek Academy of Sciences, Tashkent. Institute of the Chemistry of Plant Substances, Uzbek Academy of Sciences, Tashkent. Translated from Khimiya Prirodnykh Soedinenii, No. 5, pp. 595–613, September–October, 1991.