Determination of trace inorganic anions in seawater samples by ion chromatography using silica columns modified with cetyltrimethylammonium ion

Conventional silica columns dynamically modified with cetyltrimethylammonium ions were evaluated for the determination of UV-absorbing bromide, nitrate, and nitrite in seawater samples. Cetyltrimethylammonium, which is a quaternary ammonium ion, was dynamically introduced onto silica surfaces. The first layer of the modifier was introduced by electrostatic interaction, whereas the second layer was introduced by hydrophobic interaction. The latter layer worked as the anion-exchange sites. The modified conventional silica columns could be used for separation of inorganic anions. Separation of authentic mixture of five anions was achieved within 17 min. The addition of 0.1 mM cetyltrimethylammonium ion to the eluent improved the repeatability of the retention time. Seawater samples could be directly injected onto the prepared conventional silica columns, and bromide, nitrate, and nitrite levels were determined to be 69, 0.13, and 0.016 ppm, respectively.     

Conductivity monitoring of inorganic anions with a Cu(II)-containing poly(3-methylthiophene) electrode in single-column ion chromatography

An amperometric detector unit equipped with a Cu(II)-containing poly(3-methylthiophene) working electrode is described for the single-column ion chromatographic detection of electroinactive inorganic anions, such as F^?, Cl^?, Br^?, NO₂^? and NO₃^?. Chromatograms obtained with this unit and with a commercial conductivity detector are almost identical with regard to peak height. Thus, an amperometric unit employing this modified electrode can be used as a conductance monitor in ion chromatographic analysis. Although the responses of this electrode seem to be conductivity related, the detection principle is probably based on a dual mechanism involving equilibria between copper ions and various anions of the system in addition to simple conductivity changes associated with the passage of analyte plugs. This explains the difference in responses observed with platinum and stainless-steel electrodes used in the same cell configuration. The detector displays a linear range of at least two orders of magnitude on a logarithmic scale.     

高压离子色谱法快速测定饮用水中7种无机阴离子

建立了使用高压离子色谱快速测定饮用水中7种无机阴离子的方法。环境水样经0.22 μm尼龙滤膜过滤后可直接进样分析。采用Dionex Integrion高压离子色谱仪和AS22-Fast-4 μm阴离子交换柱（150 mm×4 mm）,可在5 min内完成对F^-、Cl^-、Br^-、NO₂^-、NO₃^-、SO₄^2-和PO₄^3-这7种阴离子的分析。以4.5 mmol/L碳酸钠和1.4 mmol/L碳酸氢钠为淋洗液,流速为2mL/min。7种阴离子的检出限为0.007~0.07 mg/L（S/N=3）,在较宽范围内有良好的线性关系（相关系数不小于0.999）和重现性（相对标准偏差不大于0.48%,n=8）。实际样品加标回收率为91.4%~109.7%,相对标准偏差为0.30%~0.45%（n=5）。将该方法应用于饮用水厂进出水的分析,结果表明在进出水中检出6种阴离子,以Cl^-、NO₃^-和SO₄^2-为主。该方法简便快速、灵敏准确,尤其适合高通量样品中阴离子的快速分析。     

离子色谱法同时测定大气降水中7种阴离子

建立离子色谱法同时测定大气降水中F^-,Cl^-,NO2^-,Br-,NO3^-,SO4^2-和PO43^-7种阴离子的分析方法。选用IonPac■AS19型色谱柱(4 mm×250 mm),以KOH梯度淋洗,用抑制电导检测器进行测定。7种阴离子在各自的质量浓度范围内与色谱峰面积成良好的线性关系,相关系数均不小于0.997,方法检出限为0.002~0.004 mg/L。测定结果的相对标准偏差为0.80%~3.38%(n=6),样品加标回收率为75.0%~98.7%。该方法简便、快速,灵敏度高,适用于大气降水中F^-,Cl^-,NO2^-,Br^-,NO3^-,SO4^2-和PO43^-7种阴离子的同时测定。     

Determination of inorganic anions in ethyl acetate by in-line hollow fiber membrane extraction with ion chromatography

In this work,a novel hollow fiber membrane extractor was set up to extract inorganic anions from ethyl acetate using deionized water.Inorganic anions in slightly soluble organic solvents can be determined by the in-line hollow fiber membrane extractor coupled with ion chromatography at first time.Different aspects of the extraction procedure such as magnetic stirring speed, extraction flow rate and extraction time were optimized to achieve high extraction efficiency and good separation results. Satisfact...     

Microcolumn ion chromatography with conductimetric detection

Summary A miniaturized flow cell for an electrical conductivity detector has been made and applied to the ion chromatography of inorganic anions. It consisted of stainless steel tubes (0.13 mm ID×0.31 mm OD) and PTFE tubes (0.25 mm ID×2 mm OD). The detection limit for chloride at S/N=3 was 36 pg or 0.33 ppm for a 0.11 l injection.     

水为洗脱剂的静电离子色谱-增强电导检测法测定常见的无机阴离子（英文）

To enhance the conductivity detection sensitivity of common anions(Na-anions) in electrostatic ion chromatography(EIC) by elution with water,a conductivity enhancement column packed with strong acid cation exchange resin in the H-form was inserted between an octadecyl silane(ODS)-silica separation column modified with zwitterionic surfactant(CHAPS: 3-{(3-cholamidopropyl)-dimethylammonio}propanesulfonate) and a conductivity detector.Specifically,the Na-anion pairing is converted to H-anion pairing after the EIC separation and then detected sensitively by the conductivity detector.The effects of conductivity enhancement and suppression in the EIC by the enhanced conductivity detection were characterized for the common strong acid anions such as SO2-4,Cl-,NO-3,I-and ClO-4 and weak acid anions such as F-,NO-2,HCOO-,CH3COO-and HCO-3.For the conductivity enhancement effect in the EIC,it is found that the conductivity of measured for all strong acid anions(Na-anions) was enhanced according to the theoretical conductivity predicted for H-anions and that of the measured for weak acid anions was suppressed depending on their pKa of H-anions.For the calibration linearity in the EIC,the strong acid anions were linear(r2=0.99-1.00) because the degree of dissociation is almost 1.0 over all the concentration range and that of the weak acid anions was non-linear because the degree of dissociation decreased by increasing the concentration of the weak acid anions.In conclusion,the EIC by enhanced conductivity detection was recognized to be useful only for the strong acid anions in terms of conductivity detection and calibration linearity.     

Indirect photometric detection of inorganic anions by microcolumn liquid chromatography using anthraquinone-disulfonate as visualization agent

Summary Disodium salts of several anthraquinone-disulfonic acids, which possess large molar absorptivity, were employed as the visualization agent for microcolumn ion chromatography with indirect photometric detection. Detection limits of inorganic anions were improved, e.g., concentration detection limits of chloride, nitrate and sulfate were 0.91–1.6 mol L^–1 at S/N=3, corresponding to mass detection limits of 18–32 fmol. The present system was applied to the determination of inorganic anions in tap water.     

正交试验优化土壤萃取法及常见无机阴离子的离子色谱分析

实验采用超声提取离子色谱法测定土壤中常见无机阴离子的含量,以正交试验优化土壤中阴离子的提取条件。研究土壤粒径、料液比、提取功率、提取时间对土壤中阴离子提取量的影响。结果表明:土壤中阴离子提取的最佳条件为A1B2C3D3。即超纯水为提取液,土壤粒径为180μm,料液比为1:30,超声波作用时间为40 min,提取功率为320W,提取次数为一次。该方法可用于土壤中常见可溶性无机阴离子含量的提取测定。     

Microcolumn ion chromatography of inorganic anions using bovine serum albumin stationary phase with indirect photometric detection

Summary Microcolumn ion chromatography of inorganic anions has been studied using bovine serum albumin immobilized on silica gel as a stationary phase. Several mobile phase solutions were examined, involving sodium iodide, potassium hydrogen phthalate, 2,6-anthraquinone disulfonate (2,6-AQDS) and sodium salicylate. 2,6-AQDS achieved better separation of the analytes tested. Chloride, nitrate, iodide, thiocyanate and sulphate could be separated within 8 min. Detection limits were in the range of 0.9–2.9 M, corresponding to mass detection limits of 0.18–0.59 pmol. The system was applied to the determination of inorganic anions in environmental water and biological samples.     

Simultaneous determination of inorganic anions, calcium and magnesium by suppressed ion chromatography

Suppressed conductimetric detection ion chromatography (IC) was investigated for the separation and detection of common inorganic anions, calcium and magnesium by anion-exchange chromatography using a sodium carbonate-EDTA mobile phase. The formation of anionic Ca2+ -EDTA and Mg2+ -EDTA complexes allowed its separation from other inorganic anions opening the way for their simultaneous determination in a single chromatographic run. The effect of the pH, carbonate and EDTA concentrations in the eluent and the previous addition of EDTA to the samples has been studied. The optimised experimental conditions were applied to the determination of Ca2+ and Mg2+ in mineral waters with results in agreement with alternative ICP-MS methodologies.     

Simultaneous determination of peroxydisulfate and conventional inorganic anions by ion chromatography with the column‐switching technique

The application of ion chromatography with the column‐switching technique for the simultaneous analysis of peroxydisulfate and conventional inorganic anions in a single run is described. With this method, conventional inorganic anions were separated by consecutive elution through both the guard column and separation column, but peroxydisulfate that only passed through the guard column had a good peak shape and short retention time. A series of standard solutions consisting of target anions of various concentrations from 0.01 to 75 mg/L were analyzed, with a correlation coefficient (r) ≥ 0.9990. The limits of detection were in the range of 0.49–9.84 μg/L based on the S/N of 3 and a 25 μL injection volume. RSDs for retention time, peak area, and peak height were all <1.77%. A spiking study was performed with satisfactory recoveries between 97.6 and 103.4% for all anions. The quantitative determination of peroxydisulfate and conventional inorganic anions in surface waters was accomplished within 18 min by this column‐switching technique.     

Non-aqueous ion exchange chromatography,an alternative to buffered silica gel

A method is described for the HPLC separation of moderately acidic, dehydrated, and multi-oxygenated diterpenoids, compounds which hitherto could not be handled by HPLC. It is based on chemically bonded silica strong cation exchangers in the protonated form, using organic solvents of the full polarity range as eluents. Thus a stable and easy-to-regenerate substitute for buffered silica gel is obtained.     

Simultaneous analysis of six inorganic anions in urine by double-suppress ion-exchange chromatography

This study is aimed to establish a simple, rapid, and accurate ion chromatography approach for the simultaneous detection of six inorganic anions in urine. Various performance parameters affecting the determination of anions were optimized, including the selection of sample protein precipitation agent, eluent, and flow rate. The final eluent was 3.6 mmol/L sodium carbonate and 12% isopropanol with a flow rate of 0.6 mL/min. Acetonitrile was used for pretreatment to precipitate proteins, and the volume ratio of urine to acetonitrile was 1:4. The correlation coefficient of the target anion calibration curve ranged from 0.9973 to 0.9999. The limit of detection ranged from 1.50 to 12.0 μg/L, and the method detection limit ranged from 15.0 to 120 μg/L. The standard recovery rate for low, medium, and high concentrations ranged from 90 to 110%. The inter-day and intra-day relative standard deviations were <5%. The method has high accuracy and good reproducibility and is suitable for the separation and determination of anions in urine.     

离子色谱-抑制型电导检测法同时测定食品级润滑油中的3种无机阴离子

建立了离子色谱-抑制型电导检测同时测定食品级润滑油中Cl^-、NO₃^-、SO₄^2- 3种代表性无机阴离子的方法。样品经50%(v/v)甲醇水溶液超声提取,离心后所得下层水相用0.22 μm混合纤维过滤膜净化,以15 mmol/L KOH溶液为淋洗液,采用抑制型电导检测器进行检测,外标法定量。在上述条件下,Cl^-、NO₃^-、SO₄^2- 3种无机阴离子在0.10~20.00 mg/L范围内具有良好的线性关系(R²>0.999);检出限(S/N=3)为0.01~0.03 mg/kg;在1.00、5.00、10.00 mg/kg添加水平下,实际样品中3种阴离子的加标回收率为90.0%~103.6%,相对标准偏差为2.8%~5.7%。结果表明,该方法无需燃烧、灰化油相基质等繁琐耗时的前处理过程,可以快速、准确定量测定食品级润滑油中Cl^-、NO₃^-、SO₄^2- 3种无机阴离子的含量,适用于润滑油等油品中痕量无机阴离子的同时分离与测定。     

离子色谱-抑制电导检测法同时测定草甘膦母液中的含磷副产物及无机阴离子

建立了一种抑制电导检测-离子色谱(IC)同时测定草甘膦生产工艺中母液里的草甘膦及其副产物、无机阴离子的方法。样品经过滤后直接进样,色谱条件: IonPac AS11-HC分离柱(250 mm×4 mm)和IonPac AG11-HC保护柱(50 mm×4 mm),在线淋洗液发生器KOH梯度淋洗,流速1.0 mL/min,采用抑制电导检测。草甘膦、甲基草甘膦、六甲基磷酰三胺(HMPA)、增甘膦、亚磷酸、磷酸、Cl~和SO2~4的线性范围分别为0.1～20 mg/L、0.1～20 mg/L、0.1～50 mg/L、0.25～50 mg/L、0.05～20 mg/L、0.2～50 mg/L、0.02～20 mg/L和0.05～50 mg/L,相关系数分别为0.9995、0.9993、0.9999、0.9998、0.9999、0.9985、0.9999和0.9980,加标回收率为93.7%～104.0%,相对标准偏差均小于2.5% (n=7),检出限(以信噪比(S/N)=3计)为0.002～0.025 mg/L。该方法用于草甘膦生产工艺中母液里草甘膦及其含磷副产物和无机阴离子的测定,结果令人满意。     

Determination of anions in landfill leachates by ion chromatography

Ion chromatography has been used to determine inorganic and organic anions within landfill leachates. Two procedures are operated on split samples which have multiple dilutions and vary in sample treatment: gradient ion-exchange chromatography for inorganic anions and isocratic ion-exclusion chromatography for organic anions. Interference between carbonate and organic acid anions using ion-exclusion chromatography is avoided by treatment with octanesulphonic acid eluent. Using ion-exchange chromatography, the presence of valerate, hexanoate and heptanoate is checked (but not quantified) for a subsample which has been treated to remove chloride; these species are then determined by ion-exclusion chromatography. Analysis of certified standards (10 mg/1 certified VFA standard; Supelco, Bellefonte, PA, USA; 20–150 mg/l inorganic anions, ICMIX1-100, Glen Spectra Reference Materials, Middlesex, UK) gives good agreement (within 5% for organic anions except formate, and within 1% for inorganic anions), with R.S.D. values for all anionic species varying from 0.44–2.23.     

Manipulation of separation selectivity of inorganic anions in electrostatic ion chromatography by the use of mixed cationic–zwitterionic micelles as the column coating solution

This paper describes an electrostatic ion chromatographic system in which the separation selectivity for inorganic anions, especially for sulfate and phosphate, could be manipulated by altering the molar ratio of the zwitterionic and cationic surfactants in the column coating solution used to prepare the stationary phase. The zwitterionic surfactant used for this study was 3-(N,N-dimethyltetradecylammonio)propanesulfonate (Zwittergent-3-14) and the cationic surfactant was tetradecyltrimethylammonium (TTA). Using a reversed-phase C₁₈ column (250×4.6 mm I.D.) coated with 10/10 (mM/mM) of TTA/Zwittergent-3-14 mixed micelles as the stationary phase and either NaHCO₃ or Na₂CO₃ aqueous solution as the eluent, together with suppressed conductivity detection, baseline separation of seven model inorganic anions was obtained. The elution order for those anions was found to be F⁻4²⁻−4²⁻2⁻−3⁻. Under the same conditions but using 1/10 (mM/mM) of TTA/Zwittergent-3-14 mixed micelles as the column coating solution, the elution order for these model ions was F⁻4²⁻4²⁻−2⁻−3⁻. The early elution of phosphate and sulfate is a unique attribute of this system. Detection limits for F⁻, HPO₄²⁻, Cl⁻, SO₄²⁻, NO₂⁻, Br⁻ and NO₃⁻ (S/N=3, sample injection volume 100 μl) were 0.11, 0.12, 0.12, 0.18, 0.49, 0.49, 0.52 μM, respectively.     

Electro‐driven extraction of inorganic anions from water samples and water miscible organic solvents and analysis by ion chromatography

A simple electromembrane extraction (EME) procedure combined with ion chromatography (IC) was developed to quantify inorganic anions in different pure water samples and water miscible organic solvents. The parameters affecting extraction performance, such as supported liquid membrane (SLM) solvent, extraction time, pH of donor and acceptor solutions, and extraction voltage were optimized. The optimized EME conditions were as follows: 1‐heptanol was used as the SLM solvent, the extraction time was 10 min, pHs of the acceptor and donor solutions were 10 and 7, respectively, and the extraction voltage was 15 V. The mobile phase used for IC was a combination of 1.8 mM sodium carbonate and 1.7 mM sodium bicarbonate. Under these optimized conditions, all anions had enrichment factors ranging from 67 to 117 with RSDs between 7.3 and 13.5% (n = 5). Good linearity values ranging from 2 to 1200 ng/mL with coefficients of determination (R²) between 0.987 and 0.999 were obtained. The LODs of the EME‐IC method ranged from 0.6 to 7.5 ng/mL. The developed method was applied to different samples to evaluate the feasibility of the method for real applications.     

Analysis of trace inorganic anions in weak acid salts by single pump cycling‐column‐switching ion chromatography

The application of ion chromatography with the single pump cycling‐column‐switching technique was described for the analysis of trace inorganic anions in weak acid salts within a single run. Due to the hydrogen ions provided by an anion suppressor electrolyzing water, weak acid anions could be transformed into weak acids, existing as molecules, after passing through the suppressor. Therefore, an anion suppressor and ion‐exclusion column were adopted to achieve on‐line matrix elimination of weak acid anions with high concentration for the analysis of trace inorganic anions in weak acid salts. A series of standard solutions consisting of target anions of various concentrations from 0.005 to 10 mg/L were analyzed, with correlation coefficients r ≥ 0.9990. The limits of detection were in the range of 0.67 to 1.51 μg/L, based on the signal‐to‐noise ratio of 3 and a 25 μL injection volume. Relative standard deviations for retention time, peak area, and peak height were all less than 2.01%. A spiking study was performed with satisfactory recoveries between 90.3 and 104.4% for all anions. The chromatographic system was successfully applied to the analysis of trace inorganic anions in five weak acid salts.