BUNSEKI KAGAKU Volume 51, Issue 9

Molecular species analysis of phosphatidylcholines by reversed-phase HPLC/electrospray ionization MS

A simple and sensitive method for the determination of molecular species of phosphatidylcholine (1,2-diacyl-sn-glycero-3-phosphocholine, PC) was develoved. Intact PC, which was isolated from soybean and salmon roe, was followed by reversed-phase high-performance liquid chromatography (HPLC) on a highly efficient ODS column (25 cm×4 mm i.d., 4 μm particle size) using methanol-acetonitrile-triethylamine (90 : 10 : 0.1, v/v/v) as the mobile phase, which gave a clear resolution of individual molecular species containing polyunsaturated fatty acids. Reversed-phase HPLC in conjunction with positive electrospray ionization mass spectrometry (ESI-MS) gave a weak [M-RCO+2Na]⁺ ion in addition to prominent pseudomolecular [M+H]⁺ and [M+Na]⁺ ions, by which individual molecular species could be identified.

Determination of thallium in water by electrothermal AAS with the direct injection of a cellulose nitrate resin suspension used for solid-phase extraction

A cellulose nitrate resin (CNR) suspension was prepared by pouring a mixture solvent of dichloromethane and tetrahydrofuran (2 : 1) containing cellulose nitrate into an aqueous solution of benzalkonium chloride under vigorous stirring, volatilizing dichloromethane and tetrahydrofuran at about 98°C, and concentrating the suspension with by centrifugation. The resulting suspension was used for the solid-phase extraction (SPE) of thallium (III) in water. The surface of CNR was supposed to be positively charged because of a remaining benzalkonium ion. It was found that thallium (III) was extracted from dilute hydrochloric acid (pH 1.6) to CNR added as a resin suspension to a sample solution, presumably as its chloride complex. The presence of ammonium pyrrolidinedithiocarbamate improved the extraction yield. Thallium (I) was not extracted without the addition of bromine water. After SPE, CNR was collected on a membrane filter by filtration under suction, was suspended again in 1.0 ml of 10 mM HNO₃ with ultrasonication, and then was injected directly into an electrothermal atomic absorption spectrometer. A linear calibration graph was obtained in the range 0∼30 ng Tl^III using 50 ml of a sample solution. The detection limit, based on three times the standard deviation of the blank, was 0.9 ng (18 pg ml^-1). The repeatability was examined using 50 ml of a sample solution containing 30 ng of Tl^III. The relative standard deviation was 2.5% (n=5). The recovery of 30 ng of Tl (III) from 50 ml of a river water sample was 95±3% (n=3).

Design of a podand fluoroionophore and its recognition function for lead ion

For selective Pb^II ion recognition, a novel podand fluoroionophore (PD-18C6) possessing a pseudo-18-crown-6 structure as a binding site and proton-ionizable N-dansyl acetamide as a photosignal transduction moiety has been designed. Examinations of the UV-Vis absorption, fluorescence, and excitation spectra in 70% 1,4-dioxane-30% water (v/v) by varying the solution pHs reveal that proton dissociation of the acetamide moiety induces an enhancement of the fluorescence emission with blue shifts of UV-Vis and fluorescence spectra. It is found that the proton dissociation of PD-18C6 is efficiently promoted by Pb^II binding, resulting in an emission response for Pb^II over the pH region from 4.0 to 5.0. ¹H-NMR and IR analyses of PD-18C6/Pb^II complex support that Pb^II is incorporated inside the pseudo-18-crown-6 cavity of PD-18C6 by ion-exchange binding with the dansyl acetamide protons. To elucidate the metal ion selectivity, the fluorescence responses of PD-18C6 in 70% 1,4-dioxane-30% water (v/v) at pH 4.3 were examined in the presence of Pb^II, Zn^II, Cd^II, and K^I. The selective fluorescence emission response of PD-18C6 was only observed for Pb^II. These results demonstrate that PD-18C6 fluoroionophore has a potential to recognize Pb^II ion in aqueous sample solutions.

Aggregation property of thermo-sensitive copolymers having polyamino groups and carboxyl groups

Thermo-sensitive copolymers of poly(N-isopropylacrylamide) having polyamino groups and carboxyl groups were synthesized. The aggregation properties of the thermo-sensitive copolymers were investigated in terms of the solution parameters, such as pH and the concentration of heavy metal ion. The distribution of biomolecules between the aqueous phase and the polymer phase mediated by phase transition was also considered. The lower critical solution temperatures (LCST) of the thermo-sensitive copolymers increased with an increase of pH of the solution. The responses of the synthesized thermo-sensitive copolymers were superior to that of poly(N-isopropylacrylamide) having only pH-responsible carboxyl groups. The addition of heavy metal ions into a polymer solution increased the LCST of the solution. Although the thermo-sensitive copolymers reacted with Cu²⁺ ion to form a blue complex, they released Cu²⁺ ions from aggregates by a phase transition. Anionic compounds tended to be distributed to the polymer aggregates, in contrast with cationic compounds which were not distributed to the polymer phase.

Retention of transition metal ions measured by magnetic chromatography

The control of the retention and separability of samples in high performance liquid chromatography (HPLC) systems is difficult, and usually requires exchanging the mobile phase and/or the column. To develop a separation system that does not require regularly exchanging them, we developed a magnetic chromatography (MC) system that uses a continuous-flow system to separate multiple ionic species with different magnetic properties. To experimentally demonstrate the feasibility of such an MC system, we measured the retention of ions in the MC system for aqueous solutions of either pure I^-, Cu^II, Ni^II Cr^III or Co^II ions. We used two trial magnetic columns in which thin ferro-magnetic alloy ribbons were arranged parallel or vertical to the flow on the upper and bottom walls, and thereby high-gradient magnetic fields were generated in the columns. We coined parallel and vertical types for these columns. External magnetic fields were applied and varied from 0 to 3 T to an aqueous solution of transition element cations and anions flowing in an MC system. We demonstrated that the retention time was delayed about by 20 or 40 minutes, and that for the Co^II ion the chromatogram broadened with increasing the applied magnetic field intensity (H). Furthermore, our results suggest that for ionized transition elements with a larger Bohr magneton number, the retention time becomes longer. We experimentally derived a retention factor (k), that can be simply expressed in terms of an MC parameter (p_MCH), which is the product of the Bohr magneton number, the concentration of ions, and H. When we used the parallel type column, the MC parameter could be used to correlate all of the experimental data in terms of k, as k=0.0014 p_MCH^1.47. Hence, k is proportional to about the 3/2 power of the MC parameter. When we used the vertical type column, the k deviated from this curve under four experimental conditions out of ten, but k=0.002 p_MCH^1.52 was obtained. From these experiments we confirmed that there is a significant effect of high-intensity, high-gradient magnetic fields on the behavior of paramagnetic cations in water.

Determination of lactic acid in human plasma by HPLC with electrochemical detection

High-performance liquid chromatography with electrochemical detection (HPLC-ECD) based on the reduction reaction of quinone was used to determine lactic acid in human blood. The peak area of the current signal (charge) was proportional to the amount of lactic acid, ranging from 0.1 nmol to 40 nmol (r>0.999). Standard lactic acid at 10 nmol was determined ten times with a relative standard deviation (RSD) of 1.18%. The detection limit (S/N=3) was 0.04 nmol. The concentration of lactic acid in plasma collected from a volunteer after 14 hours of fasting and 1 hour after eating a meal obtained by the present method were 1.26 mM and 2.32 mM, respectively. The RSD (n=5) was 3.6% or less and the recovery was 94% or more. The concentrations were identical with those obtained by a commercial lactic acid determination kit (F-kit, DL-lactic acid), which a required ten-times larger sample volume than that for the present method. The present method is useful for analyzing of the lactic acid for studying the circulatory system and a metabolism system.

Refinement and application of X-ray diffraction method as the surface roughness analysis

We had developed the method for measurement of surface roughness using X-ray diffractometer. This method uses the X-ray diffraction (XRD) profiles from the “surface-replicated film” instead of that from the sample itself, which is vaccum-metallized thin metal film on the surface of a sample to replicate surface roughness. Several peaks separated from this profile are calculated exactly to obtain diffraction angle 2θ, intensity I, integrated intensity S, full width at half maximum intensity ω (F.W.H.M.), and some other parameters. Decentering distance x as the height of convexity (x>0) or as the deepness of concavity (x<0) is calculated by the deviation of diffraction angle Δ2θ, and area of “rough” surface is calculated by the integrated intensity. Analytical result of the distance and area is described by these analyzed parameters like an irregular stairway. We studied for measurement to fix particularly appropriate conditions. Consequently, we designated these conditions to measrue surface roughness as follows: surface-replicated film is Au (gold), target is Cu (copper), divergence slit and scattering slit are 1° (X-ray exposed area: 16.2 mm×10.0 mm), receiving slit is 0.3 mm. Then, we measured of electrodeposited hydroxyapatite samples using these compiled conditions. Analytical result of these samples was lead statistically and we were able to find rough surface of electrodeposited cathodes, particle size of deposited hydroxyapatite crystal on the cathodes, and convex area of electrodeposited samples by these data. Though the SEM micrograph gives figures and sizes of samples, it transcribes a fraction of the sample in a vacuum showed narrow than our X-ray diffraction method in air. If you know the surface of samples by SEM as wide as by our method, you will spend over twenty hours for only one or a few of sample. But we can need only 60∼120 minutes for measurement of one sample.

Effects of the Lewis acidity of organic solvents on the extractability of europium (III) with β-diketone and 1,10-phenanthroline

In order to study the effect of the Lewis acidity of solvents on extractability, the hydration number of the extracted species and the interaction between the solvents and phen were examined in the extraction of europium (III) with pivaloyltrifluoroacetone (PTA, HA) and/or 1,10-phenanthroline (phen, B) into dichloromethane, chloroform and pentachloroethane. In organic solvents, the water molecules coordinated to EuA₃ are replaced with phen to form phen complexes: EuA₃ · n₀H₂O_(o)+B_(o)^→_←EuA₃ · B_(o)+n₀H₂O_(o). The equilibrium constants are similar among organic solvents where the solvent-solute interaction is not significant. However, the value of K decreased in the sequence CH₂Cl₂>CHCl₃>C₂HCl₅. The IR spectra in carbontetrachloride containing the respective solvents showed a peak at 2987 cm^-1 for C₂HCl₅, at 3019 cm^-1 for CHCl₃, at 3049 cm^-1 and 2984 cm^-1 for CH₂Cl₂, while in the presence of phen the peak shifted at 2919 cm^-1 for C₂HCl₅ and 2967 cm^-1 for CHCl₃, and no change in CH₂Cl₂. The difference of the K values among the three solvents used in the present study is explained in terms of the different Lewis acidity, which was indicated by the download shift: CH₂Cl₂<CHCl₃<C₂HCl₅.

Fluorometric determination of indium using 2,2'-bipyridine

The indium-2,2'-bipyridine complex excited by UV ray fluoresces in an aqueous solution. The fluorescence intensity of the complex has been weak. However, the fluorescence intensity of 2,2'-bipyridine as a detection reagent was remarkably lower compared with that of the In-bpy complex. Assuming the fluorescence intensity of the reagent blank to be lower than that of the analyte, the reagent is useful for determining the complex by enhancing the sensitivity of the fluorometer. Therefore, the conditions for determining indium has been examined in detail by fluorometry in an aqueous solution. As a result, indium could be determined over the range from 15 to 500 ng ml^-1 by measuring the fluorescence intensity of a complex obtained at pH 6.0, bipyridine 6.4×10^-5 M, and a standing time of 15 min. The excitation and fluorescence wavelength for measuring the complex were 303 nm and 330 nm, respectively. 3D-spectra were measured in order to examine the component ratio of the complex obtained under various conditions. The 1 : 2 complex (metal : ligand) was not confirmed by the 3D-spectra and continuous variation method. Indium reacted instantly with 2,2'-bipyridine to form an unstable 1 : 1 complex in an aqueous solution. Therefore, the determination of indium was studied based on a flow injection analysis (FIA), rather than a batch method. The detection limit of indium was improved to 2.6 ng ml^-1 by FIA at sample solution flow rate of 0.8 ml/min; that of bipyridine was 1.4 ml/min. Further, 120 samples were determined per one hour by FIA. The sample volume used by FIA was 80 μl. The fluorescence quantum yield of the In-bipyridine complex was 0.17 (that of bipyridine, 0.018). Ga, Al, Zn, Cd and Tl interfered with the determination of indium, owing to their fluorescence of the complexes formed with 2,2'-bipyridine.

Selective adsorption of metal ions on a chelating resin from hydrochloric acid and its application to the analysis of high-purity zinc

Eporous AS-4 (Miyoshi Oil & Fat Co.) is the trade name given to an arsenic-selective chelating resin of an iminodiacetate polystyrene-divinly benzene copolymer type, which has been modified by successively treating with iron (III) and sodium hydroxide solutions. Iron (III) hydroxide in Eporous AS-4 was removed by washing with 3 mol/l hydrochloric acid to prepare plain Eporous AS-4. The distribution coefficients for Ca^II, Cd^II, Co^II, Cu^II, Fe^III, Mg^II, Ni^II, and Zn^II on plain Eporous AS-4 were measured by a batch method as a function of the hydrochloric acid concentration, and compared with those on other commercially available chelating resins, i.e., Chelex 100 (Bio-Rad Laboratories) and Diaion CR11 (Mitsubishi Chemicals Co.). The distribution coefficients for Cu^II on plain Eporous AS-4 are higher than those on Chelex 100 and Diaion CR11 by a factor of ca. 100 in hydrochloric acid media of less than 0.1 M. The selective adsorption of Cu^II and Fe^III on plain Eporous AS-4 has been successfully applied to the separation of copper and iron in high-purity zinc certified reference materials prior to their measurements by flame atomic absorption spectrometry.

High-frequency spectroscopic study on the isomerization of a D-glucose aqueous solution

Saccharides have many hydroxyl groups in their molecular formulas and show mutarotation in aqueous solutions. Because of this, during the α,β isomerization of a D-glucose solution, a rearrangement of hydration occurs around the D-glucose molecules based on a stereochemical change of OH (1). High-frequency spectroscopy is an analytical method which is sensitive to the solution structures and/or a change of state of association between molecules. We applied the high-frequency method to the study of the α,β isomerization of D-glucose. The absorption intensity around 1800 MHz of high-frequency spectra was found to decrease with the progress of the isomerization reaction of D-glucose. The decrease of the intensity showed a linear relation with the reaction time. These results were found to agree with the rate of the reaction obtained from a rotation-angle measurement.

Separation of traces of copper (II) from iron (III) with 8-quinolinol-impregnated emulsion globules

A chelating agent-impregnated w/o emulsion was prepared by dissolving 50 mg of 8-quinolinol and 0.15 ml of Span-80 (nonionic surfactant) in 5 ml of toluene and then mixing with 1.5 ml of 1 mol/l hydrochloric acid by ultrasonic irradiation (20 kHz) for 15 s. The resulting emulsion was added to 25 ml of a sample and dispersed by stirring for 5 min as numerous small globules (0.1∼0.5 mm in diam.). Copper (II) ions in the sample were quantitatively diffused through the toluene layer into small droplets of hydrochloric acid at pH 3∼7. The emulsion was separated and heated at 80∼90°C to segregate the aqueous (hydrochloric acid) and organic (toluene) phases. The copper in the aqueous phase was determined by graphite-furnace atomic absorption spectrometry. The recovery of copper (II) in the presence of iron (III) was successfully achieved with a yield of greater than 95% at pH 3∼3.5, where the iron (III) existed as colloidal hydroxide particles and did not penetrate into the emulsion. This discrimination may be attributed to the surfactant layer at the oil-water interfaces. At higher pH's, however, the iron (III) colloids coagulated to form bulky hydroxide precipitates, on which most of the copper (II) ions were coprecipitated. The proposed emulsion method has been applied to the determination of copper at low μg/g levels in high-purity iron metals.

Selective uptake of copper (II) ions in water by chelating agent-impregnated liposomes

Unilamellar vesicles (i.e., liposomes) having 0.4 μm diameters were prepared by an extrusion technique. The liposomes were composed of phosphatidylcholine, phosphatidylglycerol, cholesterol, and chelating agents. When liposomes containing 8-hydroxyquinoline (HQ) were added to a water sample, copper (II) ions were collected with a recovery of 76±3%. The recovery, however, was decreased to 44 or 30% when the sample contained 1 or 5 μg/ml of humic acid, respectively. This was probably due to the exclusion of the copper-humin complex from the surface of liposome. A selective uptake of free copper (II) ion was not achieved by other chelating agents (e.g., 1,10-phenanthroline and N-benzoyl-N-phenylhydroxylamine). The inclusion of (N-ditiocarboxy) sarcosine in the inner water pool of the liposome significantly enhanced the copper uptake, while maintaining the selectivity.

Effects of solvation on the ion-pair extraction of 8-quinolinol-5-sulfonic acid with tetrabutylammonium cation using the 1-nonanol/octane mixed solvents

Chlorinated hydrocarbons represented by chloroform and aromatic solvents, such as benzene and toluene, should be voluntarily refrained from use as much as possible, while taking account of the preserving the natural environment and carcinogenic activity. From these points of view, in order to develop a less toxic solvent which can be a useful substitute solvent for chloroform, benzene, toluene, etc., we took notice of mixed solvents consisting a solvating solvent, alcohols and a non-solvating solvent, alkanes, as a less toxic solvent. The ion-pair extraction of the 8-quinolinol-5-sulfonate anion with a tetrabutylammonium cation was carried out using 1-nonanol/octane mixed solvents with a variety of mixing ratios. The formation, partition and extraction constants of the ion-pair of the 8-quinolinol-5-sulfonate anion with a tetrabutylammonium cation were estimated by a slope analysis and a curve-fitting method. The ion-pair formation constant in the aqueous phase was found to be dependent on the mixing ratio of the solvents. The sulfonate group can be expected to be solvated by three 1-nonanol molecules in the aqueous phase. The present results suggest that the 1-nonanol/octane mixed solvents are also useful not only for ion-pair extraction, but for analyzing the mechanism of ion-pair extraction.

Relationship between the solubility of water in organic solvents and the extraction equilibrium

The E_T values, which show the acceptability of solvents for a number of solvents saturated with water, were estimated and the solubility of water in these solvents were coulometrically measured using the Karl-Fischer method. The solvents were seven kinds of alkanes, three kinds of aromatic solvents, three kinds of chlorinated hydrocarbons, four kinds of esters, six kinds of ketones, and five kinds of alcohols. The E_T values were found to correlate closely with the solubility of water in those solvents, expect for 1,2-dichloroethane. The solubility of water in some of these solvents was significantly interrelated with the various equilibrium constants in the extraction of copper (II) with decanoic acid using these solvents. It was suggested that the extraction is influenced by hydration. The solubility of water in the present solvents ranged widely from 2.36×10^-3 to 4.74 mol dm^-3 compared with the short range of the E_T values. It is expected to be useful for investigating of solvent effects on the solvent extraction as a sensitive property for an organic solvent.

Fabrication of planar multipole microelectrodes for dielectrophoresis by laser ablation

We have studied a laser ablation method for the fabrication of planar quadrupole and octapole microelectrodes which can be used in the dielectrophoresis (DEP) of micro particles. A gold layer 225 nm in thickness was formed on a glass plate by vapor deposition in vacuo. Pulsed laser light (355 nm, 14 μJ/pulse) was focused on the plate as a spot of 1 μm×1 μm with an objective (50×) to remove the gold on the plate by laser ablation. The plate was placed on an xy stage, whose motion was controlled by 1 μm steps with a personal computer to fabricate patterns of quadrupole and octapole electrodes. The working area of the electrodes was 50 μm in radius for both fabricated electrodes. Polystyrene particles (0.53 μm in radius) in water were employed as a test sample. “Positive DEP”, the migration to an area of stronger electric field, and “negative DEP”, the opposite migration were observed at the lower (1∼100 kHz) and higher (1∼10 MHz) frequencies, respectively, regardless of the shape of the electrode. They migrated in the radial direction in the working area. The DEP velocity of the particles depended on their position; their migration became faster as they approached the electrode, and vice versa. The DEP migration of the particles in the octapole electrode was faster than that in the quadrupole one at the same position, as expected from a calculation of the electric field strength. A theoretical equation was derived based on the concept that a dielectrophoretic force on the particles was equalized to a frictional force on it in water. The DEP trajectory of the microparticles agreed well with the theoretical equation. Thus, the planar multipole microelectrodes fabricated by the present method was confirmed to work effectively as electrodes in dielectrophoresis.

Measurement of laser-photophoresis of a single microparticle dispersed in a liquid under microgravity

Laser-photophoresis is a new technique which can be used to characterize and separate microparticles in a liquid or gas. We developed an experimental apparatus to measure the photophoretic velocity of microparticles in a liquid under a microgravity condition. The apparatus was composed of a cw Nd : YAG laser (532 nm), a microscope, a CCD system, and a remote controlled sample stage and was set in a capsule which was used for a free-fall experiment. All of the experimental operations were made externally using a personal computer. The photophoretic behavior of micrometer-sized carbon particles dispersed in water were observed by using the apparatus under microgravity. A precise determination of the photophoretic velocity was achieved under a microgravity experiment because both the density difference between the carbon and water and the natural convection due to heat generation on the laser irradiation disturb a measurement of the photophoretic velocity. The photophoretic efficiency of the carbon microparticle was derived from the observed velocity and compared to those for transparent microparticles. It has been elucidated that the photophoretic efficiency of the carbon microparticle is much greater than those of transparent microparticles, such as polystyrene spheres. Also, the photophoretic behavior of the carbon microparticles under normal gravity was examined and compared to that observed under microgravity. The effect of natural convection on the photophoretic velocity under the normal gravity condition was revealed.

Evaluation of a dioxime-type Schiff base-poly (vinyl chloride) membrane as a silver-ion selective electrode

A poly (vinyl chloride) (PVC) membrane electrode based on N,N'-bis(2'-hydroxyimino-1'-phenylpropylidene)-1,3-propane-diamine, PHO3 (previously reported), showed excellent performance as a silver (I) ion sensor. The lifetime of this electrode was about 20 days. Therefore, to improve the lifetime for a dioxime-type Schiff based PVC membrane electrode, three kinds of PHO3 derivatives (PHEtO3, PHPrO3, and PHBuO3) that converted the PHO3 methyl group with ethyl, propyl or butyl group were synthesized, respectively. These Schiff bases (PHEtO3 and PHPrO3) gave good performance with a near-Nernstian response, 45∼51 mV decade^-1, in the Ag⁺ activity range from 5.0×10^-7 to 7.9×10^-2 M. The Ag⁺ selectivity values with respect to K⁺, -log K^pot_Ag,K were 4.35 and 4.30 (fixed interference method). Among the these tested Schiff bases, a N,N'-bis(2'-hydroxyimino-1'-phenylbuthylidene)-1,3-propane-diamine (PHEtO3) based NPOE (plasticizer) -KTpClPB (anion excluder) system electrode showed superior performance during an observation period of more than 2 months, though the Ag⁺ selectivity coefficient with respect to K⁺, -log K^pot_Ag,K was reduced from 4.35 to 2.95 due to the hydrolysis of Schiff bases.

Highly sensitive determination of copper ion with newly synthesized water-soluble fluorescent reagents having a 1,8-diaminonaphthalene-3,6-disulfonic acid skeleton

Water-soluble fluorescent reagents, 1,8-di-(toluene-4-sulfonylamino)-naphthalene-3,6-disulfonic acid (BTND) and 1,8-di-(trifluoromethanesulfonylamino)-naphthalene-3,6-disulfonic acid (BTFND), were newly synthesized. The reactivities of these fluorescent reagents to Cu²⁺, Ni²⁺, Co²⁺, Cd²⁺, Pb²⁺, V^V, Ag⁺, Fe³⁺, and Mg²⁺ were examined. BTFND was reacted with 8 metal ions, except for Pb²⁺, to show fluorescence quenching. BTND was selective to Cu²⁺, and the fluorescence was quenched quantitatively at pH 7 in an aqueous solution (λ_ex=360 nm and λ_em=405 nm). The calibration graph for Cu²⁺ with BTND was rectilinear over the concentration range from 0 to 10^-5 M and the detection limit was 2.0×10^-7 M. BTND has many advantages, such as selectivity for Cu²⁺, high sensitivity, and a simple procedure.

Determination of trace metal impurities in nickel and iron salts using 2-(5-Nitro-2-pyridylazo)-5-(N-propyl-N-sulfopropyl-amino)phenol by capillary zone electrophoresis

2-(5-Nitro-2-pyridylazo)-5-(N-propyl-N-sulfopropylamino)phenol (Nitro-PAPS) was used for a quantitative determination of ultratrace-level metal ions in commercially available metal salts by capillary zone electrophoresis. At pH 7, Nitro-PAPS reacts with various metal ions to form chelate compounds having large molar absorptivities. Although chelate formation is useful for the highly sensitive detection of metal ions, the resolution of the metal complexes is poor at pH 7. Cetyltrimethylammonium bromide was added to suppress any electroosmotic flow. The hydration of nitro groups of a chelating agent and chelates was controlled by the addition of urea. Sodium sulfate was also utilized to sharpen the signals of metal chelates by a field-enhanced stacking effect. As a result, the resolution was improved and the determination of 10^-7 M level metal ions was possible. The proposed method was applied to the analysis of metal impurity at ultratrace levels in commercially available nickel and iron salts.

Effects of thiol capping agents on the laser-induced deposition of gold nanoparticles

Gold particles were deposited on a cover glass by pulsed-laser irradiation of thiol-capped gold nanoparticles in cyclohexane. Dodecanethiol (DT) was used as the capping agent to stabilize colloidal dispersion of the gold nanoparticles in cyclohexane (DT-capped gold nanoparticles: DTAu). The DT molecules adsorbed on the DTAu were partially replaced with 1,6-hexanedithiol (HD) to obtain photoreactive gold nanoparticles (HDAu). A hydrophilic cover glass was immersed into the cyclohexane solution of HDAu or DTAu, and irradiated by the pulsed 532 nm light (10 Hz, 33 mJ/pulse) of a Nd : YAG laser, resulting the deposition of gold nanoparticles on the cover glass. The degree of deposition was traced by absorption spectroscopy. The amount of deposited gold particles was evaluated from ICP-MS after dissolving them into aqua regia. More than 2 min of irradiation was necessary for the deposition of DTAu, while only 1 min of irradiation resulted in the deposition (∼3 μg) of HDAu. It was found that partial replacement of DT with HD accelerated the laser-induced deposition of the gold nanoparticels as well as their size growth.

Synthesis of F28 tetraphenylporphyrin and its application to the separation and detection of lithium (I)

2,3,7,8,12,13,17,18-Octafluoro-5,10,15,20-tetrakis (pentafluorophenyl) porphyrin (F28 tetraphenylporphyrin; OFTPFPP) was synthesized by the condensation of 3,4-difluoropyrrole and pentafluorobenzaldehayde. 3,4-Difluoropyrrole was prepared from 2,2,3,3-tetrafluorosuccinic acid as the starting material through 5-step reaction processes. The acid-dissociation constants of OFTPFPP were determined by a solvent-extraction method in the presence of tetrabutylammonium chloride (0.1 mol dm^-3). The 28 fluoro atoms decreased the basicity of the porphyrin and made two protons of imidazoles release at pH 4 and 7 ((H₂P)_o+Na^+→_←[(HP^-)(Na⁺)]_o, pK_a3 4.2; [(HP^-)(Na⁺)]_o+Na^+→_←[(P^2-)(Na⁺)₂]_o, pK_a4 8.0). The protons of the tetrephenylporpyrin unsubstituted by fluorine atom did not dissociate at a pH lower than 14. OFTPFPP reacted with lithium ion in the neutral pH range, and gave a new absorption spectrum with a maximum wavelength of 416 nm in chloroform.

Simple method for detection of recombinant DNAs in genetically modified soybeans

The purpose of this study is to develop a simple method for detection of genetically modified soybean (GMS), Roundup Ready^® (Monsanto company), a herbicide-tolerant soybean, in which 5-enolpyruvylshikimate-3- phosphate synthase (EPSPS) gene has been replaced by herbicide-tolerant gene (CP4EPSPS). DNAs extracted from soybean samples were amplified by polymerase chain reaction and analyzed by agarose gel electrophoresis. As the result, the CP4EPSPS gene was successfully detected as SYBR Gold^®-stained fluorescent band whose concentration was almost proportional to the concentration of GMS in the sample. By applying this method to processed foods of soybeans, the temperature and the time of heating process were proved to influence on the detectability of the CP4EPSPS gene, probably by shortening the DNA molecule.

ICP-MS determination of trace amounts of zinc, copper, lead and bismuth in high-purity aluminum after electrolytic separation

A simple electrolytic preconcentration technique is described for the simultaneous determination of trace amounts of zinc, copper, lead and bismuth in high-purity aluminum by inductively coupled plasma-mass spectrometry (ICP-MS). The technique is based on the electrochemical deposition and dissolution of trace elements. The optimized operating conditions were as follows: the desired trace metal ions in 1 ml of a diluted hydrochloric acid solution (pH=2.3) were deposited in a mercury-plated glassy-carbon electrode (surface area of about 2 cm²) as metals at -1.30 V vs. SCE for 90 min; the resulting deposits were then anodically dissolved in another solution (1 ml of 0.1 M nitric acid) at 0.10 V vs. SCE for 1 min. After electrolytic separation, the concentrations of the desired elements were determined by ICP-MS. Deposition yields greater than 97% were generally obtained in the presence of 2 mg ml^-1 aluminum (III). The calibration graphs of the desired elements were linear with relative standard deviations (n=5) of less than 5.7% at the 2 ng ml^-1 level for each of the elements. The possible interferences have been evaluated. The minimum limits of determinations (10σ) of zinc, copper, lead and bismuth in aluminum, calculated from repeated measurements (n=10) of a blank solution, were approximately 0.35, 0.18, 0.05 and 0.03 μg g^-1, respectively. The proposed method was successfully applied to the determinations of zinc, copper, lead and bismuth at the μg g^-1 level or lower in two high-purity aluminum samples. The time required for an analysis was within 3 h.

Determination of traces of arsenic and selenium in human hair by electrothermal vaporization/ICP-MS

ICP-MS combined with electrothermal vaporization (ETV) has excellent absolute detection limits, and hence allows the determination of trace elements in very minute amounts of samples. In the present work, ETV/ICP-MS was applied to the analysis of human hair for As and Se. A 0.50-mg weight of a sample was decomposed with 10 μl of 14 mol l^-1 HNO₃ and 2 μl of 30% H₂O₂ in a PTFE high-pressure decomposition vessel. The resulting solution was mixed with 25 μl of a 1 μmol l^-1 KMnO₄ solution and evaporated to dryness. The residue was dissolved in 500 μl of 1 mol l^-1 HNO₃, and a 5-μl aliquot of the solution was placed on a tungsten filament. After drying the sample electrically, the filament was rapidly heated to ca. 2500°C by discharging a high-capacity condenser (0.54 F). The sample plume generated from the filament was transported to the plasma with a stream of argon and the signal intensities of ⁷⁵As⁺ and ⁸²Se⁺ were measured by MS. The addition of KMnO₄ to the sample was essential for preventing serious losses (30∼50%) of analytes during evaporation. The accuracy of the proposed method was evaluated by analyzing a certified reference material (As 0.31±0.02 μg g^-1, Se 2.0±0.08 μg g^-1). The results (n=4) were in good agreement with the certified values: 0.30±0.01 μg g^-1 for As and 2.0±0.2 μg g^-1 for Se.

Calibration method for the determination of trace amounts of carbon in steel by an infrared absorption method after combustion in a high-frequency induction furnace

An new calibrating technique “Quartz Cell Method” was developed to determine trace amounts of carbon in steels by a high-frequency combustion-infrared absorption method. Sucrose was used as a primary standard. The Quartz Cell Method was free from contamination by carbon, and the obtained calibration curve showed good linearity, which passed through the origin. On the other hand, the pretreatment technique for the steel analysis was examined in order to remove of the contamination in the crucibles, accelerators and samples. Accordingly, the calibration curve obtained by steel CRMs with the pretreatment technique using pre-heating agreed well with that obtained by the present method. It was clarified that Quartz Cell Method can be applied as a calibrating technique for trace carbon determination in steels.

Retention behavior of cationic aluminium chelate with o,o'-dihydroxyazobenzene in HPLC using the C₁₈-bonded silica stationary phase

The retention behavior of cationic aluminium chelate with o,o'-dihydroxyazobenzene (DHAB or H₂L), [AIL]⁺, in high-performance liquid chromatography (HPLC) was investigated using the C₁₈-bonded silica stationary phase. In this study, it was found that when the pH of the mobile phase was 5.5, a significant tailing of the alminium chelate was observed, whereas when the pH was 2, a marked improvement of the elution was attained. These results were interpreted in terms of a silanol masking effect: when an acidic mobile phase is employed, protonation of the silanol groups on the surface is maintained, while eliminating the strong interaction between the cationic chelate and the stationary phase. The addition of sodium chloride in the eluent can also be used to eliminate peak tailing of the cationic chelate. Based on these results, the underlying immobilization mechanism of the aluminium chelate on the C₁₈-bonded silica thin layer is explained by an electrostatic interaction between the cationic aluminium chelate and deprotonated silanol groups on the solid surface. The example in this study should provide valuable information to improve the separation quality of cationic solutes in HPLC.

Thin layer chromatographic behavior of a lanthanum-alizarin complexone-fluoride ternary complex

The thin-layer chromatographic behavior of a lanthanum-alizarin complexone (ALC)-fluoride complex was investigated with particular interest being paid to the separation of the ternary complex from La-ALC. Although the spectral shift of the La-ALC chelate upon binding to the fluoride ion is widely used for the spectrophotometric determination of fluoride ion, there do not appear to be any reports on thin-layer chromatography (TLC) for the ternary complex (La-ALC-F). In this study, it was found that when developed with 60% ethanol on a C₁₈-bonded silica thin-layer plate, the ternary complex was easily eluted, forming a sharp band. Conversely, the La-ALC chelate was immobilized at the spotting position as a fleck. Furthermore, when a bluish-purple band was separated from a reddish-purple fleck, the ternary complex faded in a few minutes, whereas, when the band remained inside the fleck, no fading took place. These results are interpreted in terms of the dissociation of the labile complex caused by separation from the excess reagent. Consequently, the concentration of the La-ALC-F band across the center of the fleck provides a sensitive visualization of the fluoride ion down to 0.1 ppm.

Extractive spectrophotometric method for boron in steel samples without regulated organic solvents

The Methylene Blue extractive spectrophotometric method is a simple analytical method for boron and has been adopted as a JIS method for the determination of boron in steel samples. However, 1,2-dichloroethane, which is used in the method as an extraction solvent, is now one of the items of Environmental Quality Standards for water pollutants in Japan, and its use is severely restricted. Thus, we developed a Rhodamine 6G extractive spectrophotometric method of boron in steel to replace the Methylene Blue method. We use Rhodamine 6G as an extractive reagent and 4-methyl-2-pentanone as an extraction solvent. This method is based on an ion pair extraction process, i.e., BF₄^- and 10 μM Rhodamine 6G form an ion-pair in the water phase and the ion-pair is extracted into 4-methyl-2-pentanone. The absorbance of the organic phase was measured with a spectrophotometer at 530 nm. The calibration curve was linear up to 7 μM of boron. The method could be applied to the determination of boron in the steel standard sample (JSS-174-7).

Isomer effects of bipyridyl on the synergistic extraction of europium (III) with β-diketone and bipyridyl

Europium (III) was extracted into chloroform with pivaloyltrifluoroacetone (1,1,1-trifluoro-5,5-dimethyl-2,4 hexanedion, PTA) and 2,2'-bipyridyl (2,2'-bpy) or with PTA and 4,4'-bipyridyl (4,4'-bpy). By combining the extractants, the extraction was improved, although the enhancement with PTA and 2,2'-bpy was much larger than that with PTA and 4,4'-bpy (the distribution ratio in the presence of 10^-2 M 2,2'-bpy was enhanced by a factor of almost 10⁴, while that in the presence of 10^-2 M 4,4'-bpy was as high as 10 times, compared to the distribution ratio in the extraction with PTA, itself, reflecting the function of the bidentate (2,2'-bpy) and the monodentate (4,4'-bpy). In addition, the extracted species with PTA and 4,4'-bpy were accompanied by four PTA and one 4,4'-bpy, EuA₃ · HA · B as well as EuA₃, EuA₃ · B and EuA₃ · 2B. As the extracted species of lanthanoids (III) with β-diketone and a monodentate Lewis base, such as tributylphosphate, EuA₃, EuA₃ · B and EuA₃ · 2B were reported before. The extraction as EuA₃ · HA · B may reflect that the Lewis basicity of 4,4'-bpy is similar to that of PTA.

Simple determination of nonionic surfactants using an ion association reaction

Nonionic surfactants, such as TritonX-100 and Brij-35, form cationic compounds in the presence of monovalent metal ions, which associate with an anionic tetrabromophenolphthalein ethyl ester dye (TBPE) to produce an extractable blue ion associate. When tetrakis (4-fluorophenyl) borate (BF4) is added to an aqueous phase, BF4 forms a colorless ion associate with cationic compounds, and the associate is rapidly extracted into 1,2-dichloroethane. At the end point, BF4 takes the cationic compound from the blue ion associate. As a result, a blue color in the organic phase turns out to be yellow because TBPEH is produced. In this work, the addition of 5 ml of 4 M KCl gave a clear end point and RSD with KCl was 0.2%. 1,2-Dichloroethane was suitable in the titration system. Since the ion association formation is stoichiometric, nonionic surfactants can be determined simply and conveniently.

Contribution of m-aminophenylboronate derivatives to the LC/MS analysis of diol compounds

In chromatographic analysis, a suitable derivatization of the bifunctional groups has sometimes been used to enhance the sensitivity and selectivity for detection. Transforming 1,2-diol compounds to the corresponding cyclic boronate derivatives has been more extensively used as a suitable derivatization method for chromatographic and chromatography/mass spectrometric detection. Liquid chromatography/mass spectrometry (LC/MS) with electro spray ionization has been successfully applied to the analysis of diol compounds, pinacol, 2-methyl-2,4-pentanediol, 2,4-dimethyl-2,4-pentanediol, (+)-pinanediol, bicyclohexyl-1,1'-diol, ryanodine and rifampicin, as their m-aminophenylboronate derivatives. Of the range of analytical conditions that were tested, the optimum results were obtained by using reversed-phase LC with a mixture of acetonitrile and 5% acetic acid. The positive-ion spectra of m-aminophenylboronates of the diol compounds showed pseudo-molecular ions, [M+H]⁺. The [M+H]⁺ ion was the most abundant for most of the diol compounds, and the [M+H+C₅H₅N]⁺ ion was the most abundant for ryanodine. Full-scan mass spectra were readily obtained from 2.6 ng of 2,4-dimethyl-2,4-pentanediol boronate, while a detection limit of 66 fg (signal-to-noise ratio 4) was attained in the selected-ion monitoring mode. This shows that the boronate derivatization of low molecule diols, like pinacol, pinanediol, and so on, contribute to the enhancement of LC/MS detection compared with the direct detection of free diol. On the other hand, in the case of more polar diol compounds, like ryanodine and rifampicine, their boronate derivatization decreased the ionization efficiency upon electrospray ionization.

The speciation of mercury in sediments from Kagoshima Bay and Minamata Bay, southern Kyusyu, Japan, by fractional extraction/cold-vapor AAS

Two procedures were used for the speciation of mercury in marine sediment. One procedure had been proposed for the differential determination of organic mercury, mercury (II) oxide and mercury (II) sulfide in sediments, based on their successive extraction, followed by a cold-vapor atomic absorption spectrometric determination. In this method, organic mercury was first extracted by shaking a sediment sample with chloroform. Another procedure had been proposed for the differential determination of inorganic and organic mercury in environmental and biological materials. In the latter procedure, mercury was first extracted by shaking a sample with 1 M hydrochloric acid containing 3% sodium chloride in the presence of copper (I) chloride. In order to separate organic mercury from inorganic mercury, the extract was shaken with chloroform to extract only organic mercury. In the current investigation, they were suggested that not only methylmercury, but also mercury bound with organic matter in the sediment, could be determined as organic mercury by the former procedure, and that the organic mercury determined by the latter procedure corresponded to methylmercury. These procedures were applied to the speciation of mercury in sediments from Minamata Bay and Kagoshima Bay. In sediments taken in the vicinity of submarine fumaroles in Kagoshima Bay, 7∼37% of the total mercury existed as organic mercury, which was considerably higher than 1∼4% in the Minamata Bay sediment.

Evaluation of an electrochemically sharpened STM tip by means of a tunnel-current to tunnel-gap-width dependence measurement

The tunnel-current to tunnel-gap-width dependences, i.e. the I-s characteristics, of electrochemically prepared STM tips and those of mechanically prepared tips were measured and compared. The I-s characteristics of the electrochemically prepared tips were moderately uniform, which indicates that the sharpness of the tip was uniform. However, the slopes of the I-s characteristics still varied greatly with the tip. The degree of the variety is presented.