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1.
Syed Nadeem Hussain Bokhari Thomas C. Meisel 《Geostandards and Geoanalytical Research》2017,41(2):181-195
This work provides a measurement procedure for the complete digestion of rock samples containing refractory minerals such as zircon and chromite. Their dissolution by wet acid digestion is often incomplete but, although providing complete digestions, alkali fusion techniques can result in solutions with a high blank and total dissolved solid content. It was established by the systematic study with reference material trachyandesite MTA‐1 that a 1:6 sample to sodium peroxide (Na2O2) ratio is conservative for the complete digestion and recovery of all the analytes especially those contained in zircon. The sample decomposition time was 120 min for the zircon‐bearing rhyolite reference material MRH‐1. Complete digestion of chromite was obtained in the harzburgite RM MUH‐1. The sample solutions were stable for at least 1 year. Accurate measurements of SiO2, Al2O3, TiO2, P2O5 and K2O could be made with ICP‐MS by not discarding the supernatant of the sinter solution and by using geological reference materials for external calibration. HF digestions are slow, not universal, and may form new mineral/phases that are insoluble under high temperature conditions. The validated sample decomposition procedure combined with ICP‐MS presents an alternative to the use of HF in routine analysis of difficult to digest geological materials. 相似文献
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敞开酸溶和偏硼酸锂碱熔ICP-MS法测定多金属矿中的稀土元素及铌钽锆铪 总被引:2,自引:2,他引:0
用电感耦合等离子体质谱法(ICP-MS)测定地质样品中的稀土及难熔元素,混合酸敞开酸溶法和碱熔融法是两种主要的溶样方法。但地质样品组分复杂,元素之间存在相互共生的现象,对于特殊元素、特殊样品用传统酸溶法会造成部分元素消解不完全,使测定结果不准确;而碱熔法的操作过程繁琐,且溶液盐度高,易产生基体干扰和堵塞仪器进样系统。本文改进了传统四酸和五酸体系,采用氢氟酸-硝酸-硫酸敞开酸溶体系,用国家一级标准物质制作标准曲线测定15种稀土元素,方法准确度(ΔlgC)为0.001~0.027。同时改进了偏硼酸锂碱熔法,样品用偏硼酸锂碱熔提取,加入氢氧化钠调节溶液至碱性条件,所测元素与偏硼酸锂共沉淀后过滤分离熔剂,再用硝酸复溶测定15种稀土元素及铌钽锆铪。两种溶样方法的测定值与认定值的相对误差为1.09%~9.30%。将混合酸敞开酸溶法测定稀土元素、偏硼酸锂碱熔法测定铌钽锆铪的结果与其他实验室密闭酸溶法相比,两组数据的相对偏差为0.13%~15.32%。本实验表明,混合酸敞开酸溶法适用于测定地质样品中的稀土元素,偏硼酸锂碱熔法不仅适用于测定地质样品中的稀土元素及铌钽锆铪,也适用于测定如古老高压变质岩石及铝含量高的样品中的铌钽锆铪。 相似文献
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Sample digestion is a critical stage in the process of chemical analysis of geological materials by ICP‐MS. We present a new HF/HNO3 procedure to dissolve silicate rock samples using a high pressure asher system. The formation of insoluble AlF3 was the major obstacle in achieving full recoveries. This was overcome by setting an appropriate digestion temperature and adding Mg to the samples before digestion. Sodium peroxide sintering was also investigated and the inclusion of a heating step to the alkaline sinter solution improved the recoveries of thirteen elements other than the lanthanides. The results of these procedures were compared with data sets generated by common acid decomposition techniques. Forty‐one trace elements were determined using an ICP‐QMS equipped with a collision cell. Under optimum conditions of gas flow and kinetic energy discrimination, polyatomic interferences were eliminated or attenuated. The measurement bias obtained for eight reference materials (BCR‐2, BHVO‐2, BIR‐1, BRP‐1, OU‐6, GSP‐2, GSR‐1 and RGM‐1) and intermediate precision (RSD) were generally better than ± 5%. The expanded measurement uncertainties estimated for two certified reference materials were mostly between 7 and 15%. New data sets for the reference materials are provided, including constituents with previously unavailable values and also for the USGS candidate reference material G‐3. 相似文献
5.
混合酸敞开或高压密闭溶样-ICPMS测定地质样品中稀土元素 总被引:9,自引:9,他引:0
测定地质样品中的稀土元素时,用碱熔法处理样品过程繁琐,混合酸敞开酸溶法的酸种类多,用量较大,而微波消解法批次处理样品少,效率不高。本文比较了7种混合酸敞开酸溶体系、硝酸-氢氟酸高压密闭体系对样品溶样的效果,采用电感耦合等离子体质谱测定15个稀土元素的含量,建立了一套样品前处理体系简单、酸用量少、相对快捷的测定地质样品中稀土元素的方法。通过对59件国家标准物质的测试分析,结果表明硫酸-氢氟酸敞开酸溶和硝酸-氢氟酸高压密闭溶样两套体系的方法检出限、精密度、准确度均能达到地质行业相关标准测试要求。硫酸-氢氟酸敞开酸溶体系对于样品中钡含量较高,或样品量较少时适用;硝酸-氢氟酸高压密闭溶样体系的检出限更低,适用于大批量样品的分析测试。两套体系均不需要进行数学干扰校正,且酸用量少(最多6 mL),分析效率高(平均每日分析测试300件),有较大的推广应用价值。 相似文献
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Chan‐Soo Park Hyung Seon Shin Haeyoung Oh Jong Hwa Moon Hana Cho Chang‐sik Cheong 《Geostandards and Geoanalytical Research》2013,37(3):361-368
We present a revised alkali fusion method for the determination of trace elements in geological samples. Our procedure is based on simple acid digestion of powdered low‐dilution (flux : sample ≈ 2 : 1) glass beads where large sample dilution demanded by high total dissolved solids, a main drawback of conventional alkali fusion, could be circumvented. Three geological reference materials (G‐3 granite, GSP‐2 granodiorite and SGD‐1a gabbro) decomposed by this technique and routine tabletop acid digestion were analysed for thirty trace elements using a quadrupole ICP‐MS. Results by conventional acid digestion distinctly showed poor recoveries of Zr, Hf and rare earth elements due to incomplete dissolution of resistant minerals. On the other hand, results obtained by our method were in reasonable agreement with reference data for most analytes, indicating that refractory minerals were efficiently dissolved and volatile loss was insignificant. 相似文献
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Wen Zhang Zhaochu Hu Yongsheng Liu Lu Chen Haihong Chen Ming Li Laishi Zhao Shenghong Hu Shan Gao 《Geostandards and Geoanalytical Research》2012,36(3):271-289
Complete dissolution is essential to obtain accurate analytical results for geological samples. Felsic rocks are known to be very difficult to dissolve because of the presence of refractory minerals such as zircon. In this study, we undertook a systematic evaluation of the effect of the HF/HNO3 ratio, digestion time, digestion temperature, digested test portion mass and the presence of insoluble fluorides on analytical results for the felsic rock GSP‐2 using high‐pressure HF and HF/HNO3 digestion. Digestion in mixtures of HF and HNO3 acids is a commonly used method of dissolution for geological samples. However, our results clearly indicate that adding HNO3 inhibited the digestion capabilities of HF for refractory minerals such as zircon. It took 8–12 hr for Zr to be completely recovered in GSP‐2 at 190 °C, whereas it needed about 36 and 72 hr at 160 and 140 °C, respectively. White precipitates were observed in the final solution for test portion mass > 100 mg, irrespective of which of the five different digestion solutions was used (1 ml HF, 2 ml HF, 1 ml HF + 0.5 ml HNO3, 1 ml HF + 1 ml HNO3 and 1.5 ml HF + 1.5 ml HNO3). Environmental scanning electron microscopy showed that these precipitates were mainly composed of AlF3. Instead of further HCl, HNO3 or HClO4 attack, we propose that using ultra‐fine samples and a small sample size is a good way to avoid the formation of insoluble residues (e.g., fluorides). To further investigate the precision and accuracy of the proposed method (using HF alone as the digestion solution during the first acid attack step), a suite of silicate rock reference materials was analysed. Most of the results were found to be in reasonable agreement with the reference values, with a relative error of < 10%. 相似文献
8.
氢化物-原子荧光光谱法测定地质样中的痕量硒--不同溶样方式的比较 总被引:7,自引:1,他引:6
以确定测试基性岩中痕量硒的最佳溶样方式为目的,分别采用加压(PTFE)强酸消解和常压强酸消解两种方法消解标准参考物质和地质样品,直接用氢化物原子荧光光谱法(HG-AFS)测定。实验选用标准参考物质GWB07105、GWB07107对方法准确度和精确度进行验证,所测得总硒量与推荐值相符,标准偏差(SD)小于7.3ng/g,相对标准偏差(RSD)小于8.9%。实验测定了5个硒含量不同的岩石样品,不同方法所测数据基本一致。样品的均匀性在一定程度上影响痕量硒的测定结果。综合评价比较二者的测定结果,可知加压(PTFE)强酸消解(硝酸+硫酸+氢氟酸)为最佳溶样方式。 相似文献
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The alternative use of lithium tetraborate and/or sodium tetraborate as flux constituents in the quantitative determination of platinum group elements (PGE) in standard reference materials SARM-7, CHR-Pt+ and CHR-Bkg by graphite furnace atomic absorption spectrometry after preconcentration by nickel sulphide fire assay was reinvestigated. Results showed that lithium tetraborate has a lower recovery rate than sodium tetraborate, except for chromitites with PGE abundances in the ppm-range. Best results for chromitites were obtained by using a mixture (1:1) of the two tetraborates. Examination of the NiS-reguli by an electron microprobe revealed finer grain-sizes of PGE-phases for lithium tetraborate and coarser ones for sodium tetraborate, the finer grains being a possible reason for greater losses during analysis filtration. 相似文献
10.
Determination of Rare Earth Elements, Sc, Y, Zr, Ba, Hf and Th in Geological Samples by ICP-MS after Tm Addition and Alkaline Fusion 总被引:2,自引:0,他引:2
Germain Bayon Jean Alix Barrat Joël Etoubleau Mathieu Benoit Claire Bollinger Sidonie Révillon 《Geostandards and Geoanalytical Research》2009,33(1):51-62
We present a revised method for the determination of concentrations of rare earth (REE) and other trace elements (Y, Sc, Zr, Ba, Hf, Th) in geological samples. Our analytical procedure involves sample digestion using alkaline fusion (NaOH-Na2 O2 ) after addition of a Tm spike, co-precipitation on iron hydroxides, and measurement by sector field-inductively coupled plasma-mass spectrometry (SF-ICP-MS). The procedure was tested successfully for various rock types (i.e., basalt, ultramafic rock, sediment, soil, granite), including rocks with low trace element abundances (sub ng g−1 ). Results obtained for a series of nine geological reference materials (BIR-1, BCR-2, UB-N, JP-1, AC-E, MA-N, MAG-1, GSMS-2, GSS-4) are in reasonable agreement with published working values. 相似文献
11.
ICP-MS分析用地质样品制备过程中Nb、Ta等元素的特殊化学行为 总被引:2,自引:0,他引:2
常规PTFE对瓶亚沸蒸馏HF时,Nb、Ta等部分高场强元素提纯效果较差,甚至适得其反,暗示Nb、Ta在HF蒸馏过程中存在“挥发”作用。然而,高温、高压酸溶法溶解岩石样品时,Nb、Ta等并没有表现出类似的“挥发”作用。对Nb、Ta等在高温、高压酸溶法溶样过程不同实验阶段的行为进行了详细研究。研究结果表明岩石样品中的AJ、Fe、Mg、Ca等主元素基体会影响Nb、Ta等元素在溶液中的存在形式和稳定性。当基体元素与Ta含量比值达到1×10^4以上时,Nb、Ta在稀硝酸介质中可以稳定存在,Ta回收率达到100%。进一步的研究结果表明,在HF中加入Al、Fe等基体,可以明显降低HF蒸出液中Ta浓度,增强HF中Ta等元素的提纯效果。在用于ICP—MS分析的样品化学制备过程中Nb、Ta表现出了不同的化学行为,在以稀硝酸为介质的Nb、Ta溶液中Ta的水解聚合程度和可能性远远大于Nb。因此,除了在样品提取前使样品溶液中保留足够的HF介质外,要获得准确的Nb/Ta比值应充分延长Ta的积分时间或者采用时间分辨分析信号平均值。 相似文献
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关键金属元素分析测试技术方法应用进展 总被引:7,自引:5,他引:2
以稀有、稀散、稀土、铂族元素为主体的战略性关键金属矿产资源,在新材料、新能源和信息技术等新兴产业中发挥着越来越关键的作用。随着我国关键矿产资源地质调查的不断深入,关键金属元素以其赋存基体复杂、不同矿物含量差异大、化学性质不稳定等特点对分析测试技术提出了新的挑战。本文根据化学组成不同,对关键金属元素主要赋存基体进行了分类,主要分为硅酸盐、碳酸盐、硫酸盐、钨酸盐、磷酸盐、氧化物、硫化物、卤化物等。对于不同的基体岩石矿物,通常采用酸溶法(硝酸-氢氟酸组合、王水)或碱熔法等传统溶样方法进行化学消解。评述了当前关键金属元素测试常用的电子探针、电感耦合等离子体质谱、电感耦合等离子体发射光谱、X射线荧光光谱等仪器的特点及应用,总结了关键金属元素分析过程中出现的样品难溶解、回收率不完全、测试过程氧化物和同质异位素干扰、样品和标准基体不一致等常见问题,并提出了相应的解决方案。微区原位分析凭借其高效率、低成本、高空间分辨率的优势,以及野外现场分析凭借其简单快速、贴近野外工作的特点是关键金属元素测试技术发展的主要趋势。 相似文献
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The beryllium and zirconium contents of 45 geochemical reference samples have been determined by inductively coupled plasma after fusion of the samples with lithium metaborate and dissolution of the melt in dilute nitric acid. The method described here is rapid and sample preparation straightforward. Good agreement is shown with previously published results for these two elements. A correction has to be made for an interference due to vanadium in determining the beryllium content, and there is a slight interference due to yttrium in the determination of zirconium. The detection limit for beryllium is about 0.2 μg g-1 and for zirconium about 15 μg g-1 in the sample. 相似文献
14.
We have developed a rapid and accurate method for the determination of Mo, Sb and W in geological samples using isotope dilution inductively coupled plasma-mass spectrometry with a flow injection system (ID-FI-ICP-MS). The chemical procedure requires HF digestion of the sample with a Mo-Sb-W mixed spike, subsequent evaporation and dissolution of Mo, Sb and W from Mg and Ca fluorides with HF. Recovery yields of Mo, Sb and W in the extraction were > 94% for samples of peridotite, basalt and andesite composition, with the exception of W in samples of peridotite composition for which recovery was 81%. No matrix effects were observed in the determination of the isotope ratios of Mo, Sb and W in solutions prepared from peridotite, basalt and andesite samples down to a dilution factor of 100. Detection limits of Mo, Sb and W in silicate materials were at the several ng g−1 level. Analysis of the silicate reference materials PCC-1, DTS-1, BCR-1, BHVO-1, AGV-1 from the US Geological Survey and JP-1, JB-1, -2, -3, JA-1, -2, and -3 from the Geological Survey of Japan as well as the Smithsonian reference Allende powder yielded reliable Mo, Sb and W concentrations. The repeatability in the analysis of basalts and andesites was < 9%. This technique requires only 0.2 ml sample solution, and is therefore suitable for analyzing small and/or precious samples such as meteorites, mantle peridotites and their mineral separates. 相似文献
15.
Andrey Linhares Bezerra de Oliveira Júlio Carlos Afonso Lilian da Silva Arnaldo Alcover Neto Manuel Castro Carneiro Lílian Irene Dias da Silva Maria Inês Couto Monteiro 《Geostandards and Geoanalytical Research》2019,43(4):689-699
Rare earth elements (REEs) are very important to technological development as well as to geochemical and environmental studies. In this work, hydrofluoric acid (HF) was replaced by condensed phosphoric acid (CPA) in the digestion of geological samples, and the quantification of REEs was performed by inductively coupled plasma‐optical emission spectrometry (ICP‐OES). Six international reference materials (RMs), named DC86318, CGL 111, CGL 124, CGL 126, OKA‐2 and COQ‐1 and three Brazilian ore samples, named Araxá, Catalão and Pitinga were analysed. Only zircon and xenotime, which are potential REE‐bearing minerals, were not completely dissolved. Nevertheless, no REE associated with zircon was detected. The investigated digestion method presented many advantages: It was relatively fast (3 h), avoided fluoride precipitation, it was less hazardous because handling diluted H3PO4 is safer than HF, NH4F or NH4HF2 aqueous solutions, it preserved the quartz fittings of the measurement equipment and the final solution contained lower levels of total dissolved solids than those produced by the fusion method. 相似文献
16.
Tao He Mufei Li Zhaochu Hu Wen Zhang Haihong Chen Zaicong Wang Yongsheng Liu 《Geostandards and Geoanalytical Research》2023,47(1):155-168
The lack of analytical techniques for halogens in geological materials is mainly due to the loss of analytes during sample preparation. This study describes a rapid bulk rock digestion method (NH4F digestion) for determination of the abundances of Cl, Br and I in geological materials by SF-ICP-MS. During high temperature (200–240 °C) digestion, NH3 released from the decomposition of molten NH4F can effectively prevent the loss of halogens released from geological samples. Chlorine, Br and I were not lost during NH4F digestion at 220 °C for 0.25–6 h. The limits of quantitation for NH4F digestion were 2.8, 0.018 and 0.003 μg g-1 Cl, Br and I, respectively. Most results for halogens in geological reference materials by NH4F digestion were in agreement with their certified values, confirming that the high-performance rapid bulk rock NH4F digestion has sufficient digestion capability to extract Cl, Br and I from rocks, sediments and soils. In comparison, results obtained following acid digestion showed that HNO3 + HF digestion could effectively extract Br and I from soil and sediment samples, and that HNO3 acid digestion is only suitable to use for the determination of Br and I in soil samples. 相似文献
17.
Sidonie Révillon Danièle Hureau-Mazaudier 《Geostandards and Geoanalytical Research》2009,33(3):397-413
Total dissolution is a critical step in geochemical analysis. Despite the number of published protocols, this issue still draws attention for sediment samples, which are particularly difficult to dissolve due to the common occurrence and high abundance of refractory phases such as zircon. We present tests of different chemical digestion procedures carried out on reference materials (RM) of stream (JSd-1, JSd-2 and JSd-3) and lake (JLk-1 and LKSD-1) sediments from the Geological Survey of Japan (GSJ) and the Canadian Certified Reference Material Programme (CCRPM). We demonstrate that the fusion technique is not appropriate for our studies as not all elements of interest were recovered and blank levels were too high to permit further Sr and Pb isotopic composition measurements. Similarly, conventional HF+HNO3 dissolution methods were not efficient enough for detrital samples. Our preferred method involved using high pressure Teflon® vessel bombs in association with HClO4 . This protocol ensured a complete dissolution of the powder, as well as a complete recovery of trace elements. Moreover, blank levels were sufficiently low that Sr or Pb isotope compositions could be measured from the same mother solution. We also tested the homogeneity of RM powders by performing tests on various amount of powder. 相似文献
18.
Jean Amossé 《Geostandards and Geoanalytical Research》1998,22(1):93-102
The present study describes a method for the extraction of Pt, Pd, Rh, Ru, Ir and Au from various geological materials after fusion with sodium peroxide in zirconium crucibles involving samples that vary in mass from 1 g to more than 20 g. Precipitation is brought about by reduction of the platinum-group elements (PGEs) with Sn2+ , using selenium and tellurium as carriers in the presence of a catalyst (KI). The extraction yields obtained by this method are between 95 and 100% for PGEs. Gold is less well extracted (around 80%). Detection of the noble metals in the extraction residues is carried out by using ICP-MS. The results obtained by this technique are reported for five CCRMP certified reference materials and are close to their certified values. The elements were also determined in a natural glass sample melted during a meteoritic impact and contaminated by PGEs at ultra-trace concentrations. 相似文献
19.
波长色散X射线荧光光谱法同时测定钒渣中的主次量成分 总被引:1,自引:1,他引:0
采用偏硼酸锂和四硼酸锂混合熔剂熔融法制样,波长色散X射线荧光光谱法同时测定钒渣中的Al2O3、SiO2、CaO、TiO2、MnO、P、V2O5、MgO、Fe、S、Cr2O3等11个主、次量成分。研究了熔剂、预氧化条件、熔样温度、脱模剂等对制样的影响。采用理论α系数校正基体效应及谱线重叠干扰的影响。测定钒渣试样各组分的相对标准偏差(RSD,n=10)在0.1%~7.5%。用钒渣行业级有证标准物质及实际样品验证,测定结果与标准值及其他方法的测定值相符。与化学法相比,该方法具有快速、简便,精密度好,准确度高等优点。 相似文献
20.
高压密闭消解-电感耦合等离子体质谱法测定锰矿石中的稀土元素前处理方法研究 总被引:4,自引:4,他引:0
高压密闭消解因称样量小、用酸量少、空白低等优点成为测定稀土元素前处理的主要方法。但锰矿石组分复杂,锰含量差别较大且具有多种不同价态,常含有伴(共)生金属和其他杂质,该方法采用常规酸溶体系很难将其消解完全,造成ICP-MS测试结果不准确。本文从样品前处理消解效果出发,选择锰矿石标准物质GBW07261、GBW07263、GBW07266和一个锰矿石样品,试验了三种酸溶前处理方法对锰矿石稀土元素测试的影响。结果表明:方法一(氢氟酸-硝酸密闭消解,硝酸复溶提取)不能将锰矿石样品完全消解,测定值偏低0. 28%~61. 31%;方法二(氢氟酸-硝酸-双氧水密闭消解,硝酸-双氧水复溶,硝酸提取)和方法三(氢氟酸-硝酸密闭消解,盐酸复溶,硝酸提取)均可将锰矿石样品消解完全,用ICP-MS测定稀土元素的数据较为接近,与传统的过氧化钠熔融ICP-MS法测定值吻合。但实验过程中发现对于锰含量较高的样品,方法三需多次重复加入盐酸复溶后方可将样品消解完全,而方法二复溶一次即可。因此,方法二对锰矿石样品的消解效率更高,精密度好(0. 96%~2. 68%),加标回收率在95. 0%~107. 0%之间,更适用于锰矿石中稀土元素的分析。 相似文献