六价铬测定方法研究进展

综述了近年来六价铬的测定方法,包括分光光度法、离子色谱法、高效液相色谱-电感耦合等离子体质谱联用法和离子色谱-电感耦合等离子体质谱联用法的研究进展,并对六价铬测定方法的发展前景进行了展望(引用文献51篇)。     

在线富集/高效液相色谱与电感耦合等离子体质谱联用测定玩具中超痕量可迁移六价铬

采用在线富集/高效液相色谱(HPLC)与电感耦合等离子体质谱(ICP-MS)联用技术,建立了玩具中超痕量可迁移六价铬的测定方法。以10 mmol/L硝酸铵为流动相,样品在Agilent BIO WAX NP5阴离子交换柱(4.6 mm×50 mm,5μm)中富集,再通过阀切换,以75 mmol/L硝酸铵将六价铬洗脱至Dionex AG7阴离子柱(4.0 mm×50 mm,10μm)中分离,最后经ICP-MS进行分析。优化得到在线富集时间为4 min,进样量为900μL,富集流速为0.4 mL/min,洗脱流速为0.6 mL/min。结果显示,六价铬在2～20 ng/L范围内线性良好,检出限为1.93 ng/L,相对标准偏差(RSD)为3.9%。与直接进样相比,浓缩因子约为8.1倍,富集效率约为90%。对欧盟玩具安全指令2009/48/EC规定的3类玩具材料在5、10 ng/L的浓度水平下进行加标回收,回收率为93.4%～111%。     

阳离子电沉积法制备光致抗蚀剂的研究

当前,印制电路板已广泛应用于航空、航天、通信、通用电器和计算机等各个领域,而光致抗蚀剂是印制电路板生产中的重要化学品,由于印制电路向着微型化、轻量化、大容量、高密度和高可靠性的方向发展,传统的工艺和材料将不能满足上述要求。     

高效液相色谱-电感耦合等离子体质谱联用测定儿童玩具中痕量铬(Ⅲ)与铬(Ⅵ)

建立了高效液相色谱-电感耦合等离子体质谱联用技术(HPLC-ICP-MS)测定玩具中痕量三价铬和六价铬的分析方法。考察了不同p H值、不同流动相、流速、质谱条件等影响因素对实验体系的影响,优化了HPLC-ICP-MS方法,使得三价铬和六价铬的检出限分别达到0.024 mg/kg和0.015 mg/kg,满足EN71-3第一类和第三类检出限的要求。将方法应用于玩具样品中三价铬和六价铬的分析,加标回收率为85.4%~119%,相对标准偏差为3.0%~5.0%。该方法简单、灵敏、准确,可用于塑料、毛绒面料、纸类玩具等玩具样品的测定。     

水中六价铬分析方法研究进展

对近年来水中六价铬的检测方法进行了综述,包括分光光度法、原子吸收分光光度法、离子色谱及其联用法、液相色谱及其联用法。对几种检测方法进行分析,展望了六价铬测定方法的发展方向。     

生物样品中3-硝基酪氨酸检测的现状

综述了近年来生物样品中3-硝基酪氨酸的测定方法,主要涉及气相色谱法、高效液相色谱法及色谱-质谱联用方法的应用,并对此领域的发展提出了展望(引用文献38篇)。     

邻菲罗啉直接光度法测定铜(Ⅱ)氨溶液中的铜(Ⅰ)

1引言废弃电路板含有大量的有价金属元素和对环境有害的重金属元素,对其回收利用具有很高的经济价值和环保意义。采用碱性Cu(氨溶液对电路板中的有价值金属进行湿法浸取是新的处理方法,体系中铜(含量对该过程有影响,有必要对Cu(进行快速准确的分析。铜的测定方法很多,但这些方法不具备价态分析的能力。本实验在氨性介质中,以邻菲罗啉为显色剂,采用三乙醇胺、亚硫酸钠(Na2SO3)联合保护Cu(,直接测定了Cu(氨性溶液中的Cu(。对废电路板浸取液测定的结果表明,本方法能够在大量Cu(存在下准确测定Cu(,操作简便。2实验部分2.1仪器和试剂TU1901…     

高密度互连印制电路板孔金属化研究和进展

孔金属化互连是印制电路板（PCB）高密度集成的核心制程之一,化学镀铜和电子电镀铜是实现孔金属化的关键技术。本文介绍HDI-PCB的概念和制作流程;综述化学镀铜和电子电镀铜孔金属化互连的研究和进展,包括溶液组成和操作条件的影响,添加剂及其相互作用机理,以及盲孔填充和通孔孔壁加厚机制;展望高密度互连印制电路板电子电镀基础研究及新技术发展方向。     

微波浓缩/离子色谱法测定印刷电路板表面的7种痕量无机阴离子

建立了印刷电路板上7种痕量无机阴离子(F-、NO-2、Cl-、Br-、NO-3、PO3-4、SO2-4)的微波浓缩/离子色谱测定方法.印刷电路板样品经纯水提取,微波浓缩后,在Ionpac AS23分析柱上,以4.5 mmol/LNa2 CO3+0.8 mmol/L NaHCO3为淋洗液,流速为1.0 mL/min.结果...     

皮革中六价铬含量的IUC-18测定法

Ｃｒ(ＩＩＩ)是制革业最重要的鞣剂 ,制革业所用的Ｃｒ(ＩＩＩ)鞣剂由Ｃｒ(ＶＩ)还原而得到。皮革中除Ｃｒ(ＩＩＩ)外 ,还可能含有微量的Ｃｒ(ＶＩ) ,目前欧盟等国要求Ｃｒ(ＶＩ)的含量小于 5ｍｇ/ｋｇ[1 ] ;国内则还没有分析测定皮革中六价铬的国家标准 ,本文介绍六价铬的ＩＵＣ - 1 8国际标准分析方法 (ＩＵＣ ,Ｉｎｔｅｒ ｎａｔｉｏｎａｌＵｎｉｏｎｏｆＣｈｅｍｉｓｔｒｙ) ,并分析了该方法的不足及改进途径。1　实验部分ｐＨ7 5～ 8 0、惰性气体保护下用磷酸盐缓冲溶液浸取皮革的六价铬 ,六价铬将 1 ,5 二苯卡巴肼氧化为 1 ,5 二苯…     

Chromium removal technologies

Chromium can exist in different oxidation states (e.g. 0, III, VI). Chromium can be both beneficial and toxic to animals and humans depending on its oxidation state and concentration. At low concentration, Cr(III) is essential for animal and human health. Chromium(VI) compounds are highly soluble, mobile and bioavailable compared to trivalent chromium. Chromium(VI) is dangerous for humans due to its toxicity and carcinogenic properties. The presence of hexavalent chromium in waste water is a potential hazard to aquatic animals and humans. Various methods are adopted for the removal of hexavalent chromium from industrial effluents. Among these different techniques, biosorption is the most promising one. In this process, the various components present in biomaterial reduce the toxic hexavalent chromium to non-toxic trivalent chromium. Algae, fungi and bacteria have biosorption properties, and cell walls are responsible for biosorption of dead biomaterial. But this process removes chromium from waste water very slowly. So for chemical modification of biosorbents, optimization of biosorption parameters is required to increase the effectiveness of this process.     

Spectrophotometric Determination of Chromium(VI) with Cr(VI)-o-Cl-PF–TDPC Ternary Complex after Preconcentration on an Organic Solvent-soluble Membrane Filter

Abstract

A simple and rapid preconcentration technique, based on collecting trace hexavalent chromium on an organic soluble membrane filter is described. At pH 5.0, chromium(VI), o-chlorophenyl-fluorone (o-Cl-PF) and tetradecylpyridinium chloride (TDPC) form the ternary ion-associate chelate, which can be collected on a 0.2μm nitrocellulose membrane. The filter is dissolved in a small volume of dimethyl sulfoxide (DMSO) acidified with 0.15 mL 3 mol/L sulfuric acid, and the absorbance of the resulting solution is measured at 545 nm wavelength against the reagent blank. The absorbance is proportional to the content of hexavalent chromium in the range of 0.1–1.8μg, in 5 mL solvent. The sensitivity of the ternary complex reaction is very high with molar absorptivity of 1.2 × 10⁵. A detection limit better than 0.3 μg/L can be achieved. The ions normally present in water do not interfere when mixed masking agents are added. The proposed method has been applied to the analysis of water samples from several sources, the recoveries of the hexavalent chromium added to the samples are quantitative, and results found are satisfactory.     

Studies on the repassivation behavior of aluminum and aluminum alloy exposed to chromate solutions

This study explores the repassivation ability of a scratch in a chromate conversion coating (CCC) on aluminum alloy, AA2024‐T3, and hence evaluates the theory of migration of hexavalent chromium ions from the protected surface of the aluminum alloy to the exposed surface. To confirm that protection was indeed restored by hexavalent chromium ions, the repassivation of a scratch on pure aluminum exposed to a dichromate solution was studied. This forms the simplest subsystem model of the CCC on the alloy in which the CCC is replaced by pure hexavalent chromium and alloy with pure aluminum. Open‐circuit potential measurements, synchrotron infrared microspectroscopy (SIRMS) and secondary ion mass spectroscopy (SIMS) have been used judiciously to evaluate the repassivation behavior. Results indicate that the dichromate ions have high mobility. The slow migration of Cr(VI) ions from the protected surface to the scratch is observed to result in repassivation, as seen from the steady increase in the potential in 0.05 M NaCl solution. The results obtained from SIMS and SIRMS confirm the migration of the oxyanions from the protected region to the metal surface exposed by the scratch. The SIRMS results indicate the formation of an Al(III)–Cr(VI) complex, proposed and shown to be formed in the pits. Copyright © 2003 John Wiley & Sons, Ltd.     

Quantification of total chromium and hexavalent chromium in UHT milk by ETAAS

Procedures for the quantification of total chromium and hexavalent chromium in UHT milk samples are presented. Total chromium was determined directly in milk with the addition of a surfactant and a mixture of Pd and Mg as a chemical modifier. For the selective separation of hexavalent chromium, the sample pre-treatment consisted in precipitation of proteins and elution of the supernatant through a Chromabond NH2 column. The metal was eluted with nitric acid. Both total chromium and hexavalent chromium were evaluated by atomic absorption spectrometry with electrothermal atomization using the same instrumental conditions. The detection limits were 0.2 and 0.15 microgram l-1 for total chromium and hexavalent chromium, respectively. The linearity ranges under the optimized conditions were 0.2-20 and 0.15-50 micrograms l-1. For total chromium the precision was 4.9 and 5.7% for the analytical and the over-all procedure, respectively, and for hexavalent chromium 4.3 and 4.9%, respectively. The validation of both procedures was performed by the standard additions method and the recoveries were higher than 93% in all cases. For total chromium, a certified reference material was also used to validate the methodology. The methods were applied to the determination of total chromium and hexavalent chromium in 60 UHT milk samples.     

铬与人体健康

介绍了铬的生理功能,指出三价铬是人体必需的微量元素,六价铬则是严重危害人体健康的有害元素,必须适量补铬和严防六价铬的中毒,才能维持人体健康。     

超痕量六价铬分析仪检测制革场地中六价铬

为解决制革等污染场地中Cr(III)-有机络合物会干扰六价铬测定的问题,通过优化仪器色谱条件、在现有行标基础上改进前处理方式,使用超痕量六价铬分析仪检测六价铬,并通过在土壤中投加低、中、高浓度的三价铬、六价铬以及Cr(III)-有机络合物考察三价铬、色度和Cr(III)-有机络合物对六价铬测定的影响。结果表明仪器的最佳色谱条件为：流动相浓度为0.1 mol/L、流动相pH为9、浓硫酸用量为5 mL、流动相流速为1.2 mL/min,衍生试剂流速为0.7 mL/min。样品预处理方式由抽滤提取改进为离心提取,上机前样品pH无需调节,可提高检测效率;该方法与现行行标相比操作简便、耗时短且不受三价铬、样品色度及Cr(III)-有机络合物的干扰。方法精密度和正确度均显著提高,相对标准偏差为1.7%~5.2%,回收率均在94.6%~103%之间。通过与液相色谱-电感耦合等离子体质谱仪对实际样品测定结果的统计学检验发现,结果无显著性差异。该方法适用于制革、电镀等富含Cr(III)-有机络合物场地中六价铬的测定。     

欧盟玩具安全新指令化学要求及测试方法综述

2013年开始实施的欧盟玩具安全指令对化学物质的检测要求更加严格,限制迁移元素从8种增加到包含三价铬、六价铬和有机锡的19种,增加了对N-亚硝胺类物质的迁移量和致敏性芳香剂的限制;限量降低,铅、镉、六价格、有机锡限量分别只有3.4,0.5,0.005,0.2 mg/kg,传统玩具检测使用的ICP-OES和GC-MS已无法满足六价铬、有机锡、亚硝胺、芳香剂的检测要求。该文简述了指令的化学相关要求以及相应的检测方法,重点介绍了六价铬和有机锡检测方法的技术进展和技术难点。     

Sources and toxicity of hexavalent chromium

Chromium exists in oxidation states ranging from ?IV to +VI, inclusively. The compounds exhibit a wide range of geometries including square planar, tetrahedral, octahedral, and various distorted geometries. Ore refining, chemical and refractory processing, cement-producing plants, automobile brake lining, catalytic converters for automobiles, leather tanneries, and chrome pigments contribute to the atmospheric burden of chromium. Hexavalent chromium is known to have 100-fold more toxicity than trivalent chromium, for both acute and chronic exposures because of its high water solubility and mobility, as well as easy reduction. The respiratory tract is the major target organ for hexavalent chromium following the inhalation exposure in humans. Chronic inhalation exposure to hexavalent chromium results in effects on the respiratory tract, with perforations and ulcerations of the septum, bronchitis, decreased pulmonary function, pneumonia, and nasal itching and soreness as reported. Chronic human exposure to high levels of hexavalent chromium by inhalation or oral exposure may produce effects on the liver, kidney, gastrointestinal, and immune systems, and possibly the blood. Dermal exposure to hexavalent chromium may cause contact dermatitis, sensitivity, and ulceration of the skin.     

Determination of hexavalent chromium in traditional Chinese medicines by high‐performance liquid chromatography with inductively coupled plasma mass spectrometry

An analytical method that combined high‐performance liquid chromatography with inductively coupled plasma mass spectrometry has been developed for the determination of hexavalent chromium in traditional Chinese medicines. Hexavalent chromium was extracted using the alkaline solution. The parameters such as the concentration of alkaline and the extraction temperature have been optimized to minimize the interconversion between trivalent chromium and hexavalent chromium. The extracted hexavalent chromium was separated on a weak anion exchange column in isocratic mode, followed by inductively coupled plasma mass spectrometry determination. To obtain a better chromatographic resolution and sensitivity, 75 mM NH₄NO₃ at pH 7 was selected as the mobile phase. The linearity of the proposed method was investigated in the range of 0.2–5.0 μg L^?1 (r² = 0.9999) for hexavalent chromium. The limits of detection and quantitation are 0.1 and 0.3 μg L^?1, respectively. The developed method was successfully applied to the determination of hexavalent chromium in Chloriti lapis and Lumbricus with satisfactory recoveries of 95.8–112.8%.     

Determination of dissolved hexavalent chromium in industrial wastewater effluents by ion chromatography and post-column derivatization with diphenylcarbazide

A proposed EPA method for the determination of dissolved hexavalent chromium in drinking water, groundwater and industrial wastewater effluents was developed using existing ion chromatographic techniques. Two solid waste matrices were briefly investigated. Aqueous samples were passed through a 0.45-micron filter and the filtrate was either (1) left unadjusted, (2) adjusted to pH 8 or (3) adjusted to pH 10 prior to analysis by ion chromatography. The method detection limits were 0.3-0.4 micrograms/l. When analyzed within 24 h, the two pH levels and the unadjusted sample yielded ca. 100% recovery of spikes. No oxidation of trivalent chromium to hexavalent chromium was observed at pH 7, 8 or 10 when aqueous samples were spiked with 50 mg/l Cr(III).