Rapid and highly reproducible analysis of rare earth elements by multiple collector inductively coupled plasma mass spectrometry

A method has been developed for the rapid chemical separation and highly reproducible analysis of the rare earth elements (REE) by isotope dilution analysis by means of a multiple collector inductively coupled plasma mass spectrometer (MC-ICP-MS). This technique is superior in terms of the analytical reproducibility or rapidity of analysis compared with quadrupole ICP-MS or with thermal ionization mass spectrometric isotope dilution techniques. Samples are digested by standard hydrofluoric-nitric acid-based techniques and spiked with two mixed spikes. The bulk REE are separated from the sample on a cation exchange column, collecting the middle-heavy and light REE as two groups, which provides a middle-heavy REE cut with sufficient separation of the light from the heavier REE to render oxide interferences trivial, and a Ba-free light REE cut. The heavy (Er-Lu), middle (Eu-Gd), and light REE (La-Eu) concentrations are determined by three short (1 to 2 min) analyses with a CETAC Aridus desolvating nebulizer introduction system. Replicate digestions of international rock standards demonstrate that concentrations can be reproduced to <1%, which reflects weighing errors during digestion and aliquotting as inter-REE ratios reproduce to ≤0.2% (2 SD). Eu and Ce anomalies reproduce to <0.15%. In addition to determining the concentrations of polyisotopic REE by isotope dilution analysis, the concentration of monoisotopic Pr can be measured during the light REE isotope dilution run, by reference to Pr/Ce and Pr/Nd ratios measured in a REE standard solution. Pr concentrations determined in this way reproduce to <1%, and Pr/REE ratios reproduce to <0.4%. Ce anomalies calculated with La and Pr also reproduce to <0.15% (2 SD). The precise Ce (and Eu) anomaly measurements should allow greater use of these features in studying the recycling of materials with these anomalies into the mantle, or redox-induced effects on the REE during recycling and dehydration of oceanic lithosphere, partial melting, metamorphism, alteration, or sedimentation processes. Moreover, this technique consumes very small amounts (subnanograms) of the REE and will allow precise REE determinations to be made on much smaller samples than hitherto possible.     

利用多接收器电感耦合等离子体质谱仪(MC-ICPMS)测定镁铁-超镁铁质岩石中的铼-锇同位素组成

报道了用多接收器电感耦合等离子体质谱仪(MC-ICPMS)测定Re-Os同位素组成的质谱方法和化学分离方法,并应用该方法测定了天然镁铁-超镁铁质岩石样品中的Os同位素组成及Re、Os含量.Re同位素组成的MC-ICPMS测定利用膜除溶雾化器(Aridus)和静态法拉第杯接收的方式完成,采用Ir标准溶液在线校正仪器的质量分馏.Os同位素组成的MC-ICPMS测定采用常规雾化器和离子计数器静态接收的方式完成,并用10%的HCl-EtOH和10%的HCl溶液交替清洗进样系统来消除Os的"记忆效应".岩石样品的Re和Os化学分离采用Carius管溶样法,结合CCl4萃取以及微蒸馏的方法分离纯化Os,利用阴离子交换树脂的方法分离纯化Re.运用上述方法,对6个镁铁-超镁铁质岩石样品中的Re、Os含量和187Os/188Os同位素比值进行了测定,获得了理想的分析结果.     

电感耦合等离子体质谱法测定地质样品中的碲

本文采用电感耦合等离子体质谱法,对地质样品中的碲的测定进行了研究,建立了一种快速、准确、简便的测定土壤样品中碲的方法。该方法克服了常规方法的局限性。此方法对6个国家标准物质进行了方法验证,12次测定精密度、准确度均符合标准要求。     

电感耦合等离子体发射光谱法测定水中硅和锶

本文提出的等离子体发射光谱法测定水中的硅和锶,具有检出限低、线性范围宽,样品无需处理,可直接进样测量等优点。检出限：硅(以二氧化硅计)为0．5mg／L;锶为0．001mg／L。方法简便、准确,结果令人满意。     

电感耦合等离子体质谱法测定饮用水中微量元素

采用电感耦合等离子体质谱法快速测定饮用水中的微量元素,样品处理简便,检出限低,重现性好,分析速度快。方法检出限为0．007～0．911μg／L,精密度达到0．73％～4．87％。     

电感耦合等离子体质谱法测定黑色页岩中的铂钯

对于黑色页岩中的铂钯元素,试样经过灼烧除去硫以及有机质后,用王水分解,经树脂富集,再将树脂灰化后溶解,采用电感耦合等离子体质谱仪测量,取代比色法,得到了更好的检出限,以及准确度。     

Determination of indium in natural waters by flow injection inductively coupled plasma mass spectrometry

Two methods have been developed to measure indium (In) in natural waters by flow injection inductively coupled plasma mass spectrometry (ICPMS). One is the isotope dilution technique using an¹¹³In enriched spike and the other utilizes natural yttrium present in the sample as an internal standard. In the former, optimization of the¹¹³In spike to minimize error is often difficult for samples in which In concentrations are variable, whereas in the latter method, a separate determination of Y in the sample is necessary and hence more sample is required. Using about 1 liter of a water sample, 200 fold preconcentration of In was performed by solvent extraction and back extraction technique and then introduced into the ICPMS to measure the¹¹³In/¹¹⁵In or¹¹⁵In/⁸⁹Y ratios. The detection limits were 0.01–0.02 pmol kg⁻¹ for both methods. Application of the methods to seawater samples yielded the concentrations of 0.06–0.15 pmol kg⁻¹ for the Pacific and 0.6–1.5 pmol kg⁻¹ for the Atlantic. The large inter-oceanic variation of In best resembles that of Al amongst the 3B group of elements in the periodic table. River and estuarine samples gave a more variable range of concentrations of 0.01–15 pmol kg⁻¹. Most of the In supplied by rivers is removed by scavenging in the estuarine mixing zone, suggesting that the fluvial input of In to the ocean is small.     

高分辨电感耦合等离子体质谱法测定植物样品中的12种元素

植物样品经逆王水体系微波消解稀释至一定体积后,直接用高分辨等离子体质谱法（HR-ICP-MS）同时测定溶液中的Cr、Mn、Co、Ni、Cu、Zn、As、Se、Mo、Cd、Hg、Pb共12种无机元素的含量。在HR-ICP-MS仪上优化选择各元素的同位素、分辨率和内标元素,有效消除测定过程中的质谱与非质谱干扰。其中,各元素的检出限在0.55～48.6 ng/g之间 (稀释因子=250) ,相对标准偏差RSD（n=12) 均＜10%。该方法经国家一级生物标准物质验证,测定结果接近标准值,方法准确可靠,适用于快速准确测定植物样品中的12种元素。     

激光剥蚀电感耦合等离子体质谱微区分析 进展评述

激光剥蚀电感耦合(LA-ICP-MS)等离子体以其高空间分辨率、高灵敏度、多元素同时测定并可提供同位素比值信息的检测能力在原位微区分析中已得到广泛应用。现从仪器的发展、基础研究等方面评述了近年来LA-ICP-MS微区分析的进展,重点介绍了与等离子体质谱(ICP-MS)联用的激光器(纳秒和飞秒激光器)的发展、校正方法、分馏效应及其在地球科学微量元素、同位素、包裹体分析中的应用。并简要地阐述了LA-ICP-MS分析技术存在的局限和发展趋势。     

Standard-sample bracketing calibration method combined with Mg as an internal standard for silicon isotopic compositions using multi-collector inductively coupled plasma mass spectrometry

Silicon isotope analysis traditionally uses a standard-sample bracketing (SSB) method that relies upon greater instrument stability than can be consistently expected. The following proposed method reduces the level of instrumental stability required for the analysis process and provides a valid solution for high-precision and accurate studies of Si isotopic compositions. Rock samples were dissolved by using alkali fusion and acidification. Silicon isotopes were purified with an ion exchange resin. Interfering peaks for isotopes were separated by using a Nu Plasma 1700 multi-collector inductively coupled plasma mass spectrometry (MS) system in high-resolution mode (M/ΔM > 8000 RP). Two magnesium isotopes (²⁵Mg and ²⁶Mg) and three silicon isotopes (²⁸Si, ²⁹Si, and ³⁰Si) were analyzed in the same data collection cycle. Mg isotopes were used as an internal standard to calibrate the mass discrimination effects in MS analysis of Si isotopes in combination with the SSB method in order to reduce the effects of MS interference and instrumental mass discrimination on the accuracy of measurements. The conventional SSB method without the Mg internal standard and the proposed SSB method with Mg calibration delivered consistent results within two standard deviations. When Mg was used as an internal standard for calibration, the analysis precision was better than 0.05 ‰ amu.     

激光探针等离子体质谱法（LAM—ICPMS）用于年龄锆石U—Pb定年

利用激光探针等离子体普（ＬＡＭ－ＩＣＰＭＳ）技术对中生代锆石进行了详细的２０６Ｐｂ／＾２３８定年研究。采用线扫描（Ｌｉｎｅ ｓｃａｎ）进样法减小了传统的剥深（Ｄｅｐｔｈ ｐｒｏｆｉｌｅ）进样法所引起的激光熔蚀分异效应;优化仪器参数可三ＩＣＰ－ＭＳ对Ｐｂ和Ｕ的质量歧视效应。测得了精确的＾２０６Ｐｂ／＾２３８Ｕ比值及年龄。研究结果表明,均匀颗粒锆石的＾２０６Ｐｂ／＾２３８Ｕ比值测量精度为２％～１０％,     

Synthesis of PGE sulfide standards for laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS)

Sulfide compositions with known Re, Os, Ir, Ru, Rh, Pt, and Pd contents are synthesized to be used as standards for noble metal analysis in solid solution in sulfides. Major elements were added as metals and elemental S. The noble metals, i.e. 35 and 60 ppm each, were added as solutions by micro syringe. Following synthesis at 1 atm the sulfides were sintered at 1.5 to 2 GPa to obtain pellets with theoretical density. Aliquots of the pellets were analysed by isotope dilution ICP-MS for bulk Re and platinum-group elements (PGE). The spatial noble metal distribution was investigated with an ArF excimer laser coupled to a single collector ICP mass spectrometer. Sample homogeneity is shown to depend on the metal/S spectrum and the major element composition of the sulfide, as well as on more subtle factors like oxygen partial pressure during synthesis, run temperature, and degree of partial melting. The most homogeneous sulfide composition is a (Fe,Ni)_{1 − x} S monosulfide with 5 wt % Ni and 1-sigma variations in ³⁴S-normalized noble metal count rates of <3.6%. Nearly as homogeneous is a pure Fe_{1 − x} S monosulfide with 1-sigma variations in ³⁴S-normalized noble metal count rates of <5.8 %. A Cu-bearing Fe_{1 − x} S monosulfide with 2 wt % Cu was found to be considerably more heterogeneous, suggesting that Cu in solid solution in monosulfides promotes noble metal heterogeneity. The sulfide composition least suitable for the synthesis of noble metal sulfide standards is NiS.     

微波消解-电感耦合等离子体质谱法测定土壤中稀土元素条件优化

稀土元素因其用途广泛,已经得到了越来越多的关注,被应用于各个行业.研究表明,稀土元素对作物的光合作用、产量、抗逆、品质、发育和养分吸收等具有重要作用.作物中的稀土元素主要来自对土壤中稀土元素的吸收,因此,有效分解并快速测定土壤中的稀土元素,可以合理指导稀土元素的施用,对作物的生长和土壤的营养状况具有重要作用.本文比较了...     

A comparison of lead-isotope measurements on exploration-type samples using inductively coupled plasma and thermal ionization mass spectrometry

Thermal ionization mass spectrometry (TI-MS) has long been the method of choice for Pb-isotope determinations. More recently, however, inductively coupled plasma mass spectrometry (ICP-MS) has been used to determine Pb-isotope ratios for mineral exploration. The ICP-MS technique, although not as precise as TI-MS, may promote a wider application of Ph-isotope ratio methods because it allows individual isotopes to be determined more rapidly, generally without need for chemical separation (e.g., Smith et al., 1984; Hinners et al., 1987). To demonstrate the utility of the ICP-MS method, we have conducted a series of Pb-isotope measurements on several suites of samples using both TI-MS and ICP-MS.     

High precision measurements of Mg/Ca and Sr/Ca ratios in carbonates by cold plasma inductively coupled plasma quadrupole mass spectrometry

We present a new high precision analytical method for the determination of Mg/Ca and Sr/Ca ratios in carbonates using an inductively coupled plasma quadrupole mass spectrometer (ICP-QMS) with a 650-W cold plasma technique and a desolvation introduction system. Signal intensities are detected in pulse-counting mode and Mg/Ca and Sr/Ca ratios are calculated directly from intensity ratios of ²⁴Mg/⁴³Ca and ⁸⁶Sr/⁴³Ca using external matrix-matched standards for every 4–5 samples to correct for instrumental mass discrimination and low-frequency ratio drift. Significant matrix effect of Ca content on Mg/Ca determination (− 0.018 Mg/Ca (mmol/mol)/[Ca] (ppm)), can be overcome by diluting [Ca] to 6–8 ppm in the sample solution or using an empirical correction. The Sr/Ca ratio affects the Mg/Ca determination, with a factor of − 0.32% Mg/Ca per mmol/mol. This is mainly caused by the influence of doubly charged ⁸⁶Sr, which biases the intensity measurement of the ⁴³Ca⁺ ion beam. This effect results in a trivial offset of less than 0.1% on Mg/Ca measurements for Quaternary foraminiferal and coral samples. The internal precision of our method ranges from 0.1 to 0.2%. Replicate measurements made on standards and samples show long-term external uncertainties (2σ) of Mg/Ca = 0.84% and Sr/Ca = 0.49%. The minimum sample size requirement is only 3.5 μg of carbonate. The application of this newly developed technique on the planktonic foraminifera Globigerinoides ruber from a core recovered in the southern South China Sea yields a glacial–interglacial difference in sea surface temperature (SST) of 3 °C. Three-year coral Sr/Ca data suggest that the seasonal SST ranged from 22.6–23.8 °C in winter to 26.9–27.9 °C in summer in Nanwan, south Taiwan, during 2000–2002. The coral-Sr/Ca inferred SSTs in 2002 match well with instrumental records, which demonstrates the validity of this ICP-QMS method.     

浅谈多接收器电感耦合等离子体质谱仪的日常维护

多接收器电感耦合等离子体质谱仪(以下简称MC-ICP-MS)广泛应用于同位素的准确测定,为地质、环境、考古等科学研究提供了破解"指纹密码"的重要工具,为地质科学研究提供了获取实验数据的重要手段.由于仪器部件老化、日常维护保养不到位和重要技术人员流动等原因,如果仪器长时间"带病"工作,故障率会增高,甚至濒临瘫痪,就很难保证同位素测试数据的可靠性.因此,掌握MC-ICP-MS各个部件的工作原理和特性及维护要领,加强日常的仪器维护,维持仪器正常运转,对于保障测试结果的准确度与精密度势在必行.本文结合长期实践经验,以Neptune仪器为例,重点介绍了MC-ICP-MS主要部件工作原理及维护要领,并对一些常见故障做详细分析,提出解决方案,以供相关技术人员参考与借鉴.     

电感耦合等离子体质谱法(ICP-MS)测定水系沉积物中的铌钽锆铪

建立电感耦合等离子体质谱法(ICP-MS)测定水系沉积物中铌、钽、锆、铪四种元素的分析方法。将样品与氢氧化钠、过氧化钠混合物放入高温炉中,熔融分解完全,用热水提取,过滤后弃去滤液,将滤纸及沉淀用酒石酸-盐酸溶液溶解,稀释至刻度测定。方法检出限(3s)为:LD(Nb)=0.08μg/g,LD(Ta)=0.04μg/g,LD(Zr)=0.5μg/g,LD(Hf)=0.04μg/g,精密度(RSD%,n=6)为:0.84%~4.21%。该测定方法具有灵敏度高、精密度好、分析速度快、线性范围宽、操作性强等优势。采用该方法对国家一级标准物质进行测定表明,其结果与标准值吻合。此方法已在实际地质调查样品分析中得到应用。     

A re-assessment of nickel-doping method in iron isotope analysis on rock samples using multi-collector inductively coupled plasma mass spectrometry

Element doping has been proved to be a useful method to correct for the mass bias fractionation when analyzing iron isotope compositions. We present a systematic re-assessment on how the doped nickel may affect the iron isotope analysis in this study by carrying out several experiments. We find three important factors that can affect the analytical results, including the Ni:Fe ratio in the analyte solutions, the match of the Ni:Fe ratio between the unknown sample and standard solutions, and the match of the Fe concentration between the sample and standard solutions. Thus, caution is required when adding Ni to the analyte Fe solutions before analysis. Using our method, the δ⁵⁶Fe and δ⁵⁷Fe values of the USGS standards W-2a, BHVO-2, BCR-2, AGV-2 and GSP-2 are consistent with the recommended literature values, and the long-term (one year) external reproducibility is better than 0.03 and 0.05‰ (2SD) for δ⁵⁶Fe and δ⁵⁷Fe, respectively. Therefore, the analytical method established in our laboratory is a method of choice for high quantity Fe isotope data in geological materials.

     

电感耦合等离子体发射光谱法测定区域化探样品中高含量的砷

采用1∶1王水处理样品,用电感耦合等离子体发射光谱法(ICP-AES)测定地球化学样品中的砷元素。测定样品采用国家一级标准物质进行试验,并与标准值进行比较,测定值与标准值相符,满足《地质矿产实验室质量管理规范》的质量要求。经试验,该方法精密度(RSD,n=12)为1.48%~5.63%,检出限(ug/g)6.42,加标回收率为95.15%~104.6%,其方法简便快速,操作周期短,适合大批量地区化学样品中高含量砷的快速测定。