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1.
AG MP-1M阴离子分离Cu、Fe、Zn及其在Fe同位素测定上的应用   总被引:1,自引:0,他引:1  
采用新型阴离子交换树脂AG MP-1M,分别以8.2 mol/L HCl+0.01%HF、4 mol/L HCl、2 mol/L HCI和0.5 mol/L HNO,可以有效分离地质样品中Cu、Co、Fe和Zn,克服了AG MP-1阴离子交换树脂分离Cu时Co随Cu同时淋洗下来,以及在分离Co含量较高的地质样品时Co和Cu需过二次柱分离的弊端.对花岗闪长岩等地质标样的研究结果表明,AG MP-1M阴离子交换树脂能有效分离Cu、Fe和Zn,并且它们的回收率均大于99%.标准样品经过离子交换分离后Fe同位素未发生分馏,可满足多接收器电感耦合等离子体质谱(MC-ICPMS)的同位素测定要求.  相似文献   

2.
利用多接收电感耦合等离子体质谱仪测定Mg同位素比值时,样品溶液中的基质元素可影响Mg同位素比值的准确测定。根据白云鄂博样品富含REE、Nb、Fe(REE质量分数可达10%、Nb质量分数可达0.1%)等元素的特性,本研究在评估测试溶液中Nd(REE)、Mn元素质量比对Mg同位素比值影响的基础上,建立了适用于富含REE、Nb、Fe等元素的特殊样品中Mg同位素的化学纯化方法。研究表明,当m(Nd)/m(Mg)>0.2、m(Mn)/m(Mg)>0.2时,REE和Mn的存在明显影响Mg同位素测定值的准确性,应予以去除。所建纯化方法首先是利用AG MP-1阴离子交换树脂,以10 mol/L HCl+0.001% H2O2溶液为上样介质和淋洗液,接取前2.5 mL淋洗液,去除样品中 Fe、Mn等杂质元素;然后利用AG50W-X12阳离子交换树脂,以2 mol/L HCl为上样介质和淋洗液,去除REE、Nb等杂质元素。所建方法满足多接收器等离子体质谱进行高REE-Nb-Fe-Mn样品中Mg同位素测定的要求。  相似文献   

3.
AG MP-1阴离子交换树脂元素分离方法研究   总被引:20,自引:1,他引:19  
在用多接收器等离子体质谱仪(MC—ICP—MS)测定过渡族元素同位素时,需要对待测样品进行分离纯化。目前,人们常用AGMP-1阴离子交换树脂在不同浓度的HCl和HNO,介质中依次分离出Cu,Fe和zn。为详细了解样品中基体元素与AGMP-1阴离子交换树脂的作用以及它们在该树脂中的淋洗过程,根据金属阳离子与Cl^-形成络合物的稳定性及它们与阴离子交换树脂的亲和力,对利用AGMP-1进行Cu和Fe分离过程中基质元素的行为进行了实验研究。结果表明,除Co外,在7mol/LHCl条件下,地质样品中基体元素(包括cr和Ni)能与Cu,Fe进行很好的分离。不同酸度下的实验研究表明,在6mol/LHCl条件下,可以将Cu和Co进行很好的分离。为此提出,对于基质元素含量较少的样品(如硫化物、氧化物、氢氧化物等),可直接用6mol/LHCl进行样品分离。由于这类样品中K,Na,Ca,Mg,A1等元素含量较低,在Cu被洗脱前已被彻底淋洗,该方法可将Cu和包括Co在内的基质元素进行理想的分离。对于含Co较高的部分硅酸盐等样品,则应先用7mol/LHCl分离出Cu接收液,之后过二遍柱,以6mol/LHCl作淋洗液,去掉Co。建立的分离方法还可应用于Ca,Mg同位素的前期分离纯化  相似文献   

4.
Mo同位素的研究在地学领域应用广泛,它可以示踪Mo的全球循环、古海洋氧化还原条件、成矿过程、天体演化过程等。应用多接收电感耦合等离子体质谱法(MC-ICP-MS)分析Mo同位素比值前需对样品进行分离纯化,以富集Mo和去除Zr、Ru、Fe、Mn等干扰元素。处理某些Fe含量特别高且Ca含量也高的特殊地质样品(如含大量黄铁矿的钙质泥岩、钙质页岩等),若根据传统的阴阳离子交换树脂双柱法,需多次使用阳离子交换树脂分离Fe,步骤较繁琐且Mo回收率也会降低,而根据传统的阴离子交换树脂单柱法,使用1mol/L氢氟酸-0.5mol/L盐酸介质会产生较多CaF_2沉淀影响分离纯化效果。针对此类特殊地质样品,本实验使用同一阴离子树脂柱(AG1-X8,100~200目)对样品进行两次淋洗,第一次使用6mol/L盐酸,第二次使用1mol/L氢氟酸-0.1mol/L盐酸和6mol/L盐酸。结果表明Mo的回收率96%,干扰元素的去除效果好,尤其是Ru的去除率接近100%,比原方法提高了约12%。对实际样品进行实验的结果也显示,Mo的回收率和干扰元素的去除都符合要求,δ~(98/95)Mo测定值与文献报道值一致。改进后的阴离子交换树脂单柱-二次淋洗法适用于Fe、Ca含量较高的特殊样品,降低了分析成本,也适用于绝大多数地质样品。  相似文献   

5.
采用AGMP-1阴离子交换树脂,分别以7mol/L HCl、2mol/L HCl、0.5mol/L HNO3作为淋洗剂,可有效分离Cu、Fe、Zn。介绍了方法的基本原理、化学分离过程及混合标准溶液与地质标样的分离结果。结果表明,Cu、Fe、Zn回收率均接近100%,标准溶液在离子交换分离前后同位素组成一致,可以满足多接收器等离子体质谱对Cu、Fe、Zn同位素高精度分析的要求。  相似文献   

6.
多接收器等离子体质谱仪(MC-ICP-MS)高精度同位素组成的准确测定,依赖于对样品中待测元素的分离纯化.本研究比较了两种溶样方法对有机样品积累植物海州香薷的消解效果,检测了AG MP-1阴离子交换树脂对样品中Cu、Zn的分离效果,并测定了样品中的Cu、Zn同位素组成.结果表明:①两种不同溶样方法均能有效地破坏累植物海州香薷样品中的有机质;②AG MP-1树脂能有效分离纯化植物中的Cu、Zn,经过AG MP-1树脂一次交换分离和二次交换分离的植物根样品的Cu接收液基体元素的去除基本没有差别,经过一次交换分离的Zn溶液,基体元素也基本除去,可以用于MC-ICP-MS对Cu、Zn同位素组成高精度的测定;③Cu、Zn同位素组成测定误差不大于仪器的长期重现性,表明样品的化学处理过程、各离子交换树脂柱分离交换过程和仪器测试过程均有很好的重现性,符合样品测定的要求.  相似文献   

7.
本文对分离纯化样品过程中铅同位素的分馏进行了评估,并描述了适于MC-ICPMS同位素测定的分离纯化方法。利用AG1-X8阴离子交换树脂分离纯化样品中铅的过程确实导致了铅同位素的质量分馏。尽管分离纯化过程导致的铅同位素分馏程度较小(0.43‰amu-1),但明显超出了仪器的测试误差(0.23‰amu-1),如果样品中铅的回收率太低,会导致铅同位素测试值明显偏离真值。利用AG1-X8阴离子交换树脂,以0.2mL 1mol/L HBr溶液为上样介质,以5mL 1mol/L HBr和0.5mL 2mol/L HCl溶液为淋洗液,1.5mL 6mol/L HCl溶液为洗脱液,利用该分离流程可以保证获得样品中铅同位素的准确值。在本实验研究条件下,相对于过柱前样品,前期淋洗液富集铅的轻同位素(δ208Pb0),后期淋洗液富集铅的重同位素(δ208 Pb0),表明在该实验条件下,铅的重同位素组分比轻同位素更容易和树脂结合,AG1-X8阴离子交换树脂吸附铅的配分系数208 D/204 D大于1。解吸被树脂吸附铅的过程中,铅在不同络合形式间的交换反应可能导致了铅同位素的分馏效应,意味着无机络合物或者有机大分子参与反应的过程可能会导致铅同位素的分馏。  相似文献   

8.
Sr、Nd、U等同位素体系被广泛应用于地球表生过程中年代测定及物源示踪等研究,高效地分离这些同位素体系,对于推广这些同位素方法的应用具有重要现实意义。若要同时分析地质样品中Sr、Nd、U三种元素的同位素,现有方法往往需要消解两份样品,一份用于Sr-Nd而另一份用于U的分离提纯。这种方法不但增加了样品用量,而且需要多次蒸干溶液转换介质,既延长了分离流程也增加了样品被污染的风险。为了提高样品利用率和分析效率,本文通过将树脂柱串联改进了分离流程,提出一种仅需消解一份样品,便可同时提取Sr、Nd、U三种元素的新方法。本方法中Sr的分离采用Sr特效树脂,包含Nd在内的稀土元素(REE)的分离采用AG50W-X8树脂,U的分离采用UTEVA特效树脂。实验中将三种树脂柱串联,采用3mol/L硝酸淋洗液淋洗,同步进行平衡树脂、上样、洗杂志,避免了蒸干操作。分离后的淋出液使用电感耦合等离子体质谱仪(ICP-MS)测试元素含量。结果表明:U的回收率接近99.9%,Sr的回收率超过90%,Nd的回收率超过80%;同时三种树脂柱串联的分离流程,主要基体元素(K、Ca、Na、Ba、Fe、Rb等)的去除率均超过9...  相似文献   

9.
报道了利用少量AG1-X4阴离子交换树脂分离地质样品中Fe及测定Fe同位素的方法。对少量AG1-X4和AG MP-1树脂的分离效果进行了比较,测定了经过AG1-X4分离后的地质标样BCR-2、BHVO-2、BIR-1a、AGV-2、W-2、GSP-2、COQ-1、DTS-2b、JB-2、Jsd-1、GBW07105和GBW07267的Fe同位素组成,其结果与文献参考值在误差范围内一致。这些数据的发表对于地质样品Fe的化学分离和同位素测定提供了参考依据。此方法可以大大减少化学试剂用量,是一种快速有效分离铁的方法。  相似文献   

10.
报道了在本实验室建立的地质样品钙同位素化学分离方法。通过对比不同离子交换柱类型、树脂体积、淋洗酸浓度及类型、上样量及样品岩性等影响化学分离效果的因素,确定了采用AG MP-50(100-200目)树脂及HCl淋洗的化学分离流程。该流程在确保高回收率的条件下实现了Ca与K、Sr等干扰元素的有效分离和质谱测量过程中基体效应的有效控制,经这套化学分离方法提纯的NIST SRM 915a、IAPSO大西洋标准海水及一些USGS标样的测试结果与文献值在误差范围内一致,表明本文建立的化学分离流程可满足热电离质谱(TIMS)高精度测定地质样品钙同位素的要求。  相似文献   

11.
Some elements normally occur at trace levels while the majority of natural geological materials may be exceedingly enriched in some special cases, such as the Bayan Obo ore deposit where REE and Nb are extremely enriched. These elements may not be removed completely during purification. Therefore, matrix effects will be caused during stable isotope ratio measurement in the MC-ICP-MS. Experiments have shown that the established methods of chromatographic separation of Cu, Fe, and Zn using AG MP-1 Anion Exchange Resin cannot make ef-fective separation of Nb, W, and Cu from Fe using 20 mL 6 M HCl. It is also observed that the elution curves of W and Cu overlap at working conditions and thus W is present in measurable amounts in some sample solutions. Matrix effects in the MC-ICP-MS induced by Nb, W, and Cu during Fe isotope ratio measurements and by W during Cu isotope ratio measurements were thus investigated by examining their changes in delta values between doped and undoped standards. The results show that the effects of the matrix elements Nb, W, or Cu on Fe isotope ratio measurements are minimal in the case of m(Nb)/m(Fe)<0.005, m(W)/m(Fe)<0.01, or m(Cu)/m(Fe)<0.6. This finding, combined with the extremely low levels of W and Cu, and the fact that nearly 90% of Nb can be removed during purification, demonstrates that the methods of chromatographic separation of Fe established before are suitable for Bayan Obo ore samples and that the methods can be simplified when Cu elution is unnecessary. The effects of the matrix element W on Cu isotope determinations are minimal in the case of m(W)/m(Cu)<0.7. Therefore, W exerts no significant effect on the measurements of Cu isotopes for the majority of natural geological materials.  相似文献   

12.
对不同离子交换柱、淋洗体积、盐度、分离次数等一系列影响铜、锌纯化分离效果的条件进行了探讨,确定了环境样品(湖泊沉积物、植物和颗粒物)中铜、锌同位素测定时化学分离的最佳条件。采用AGMP-1(100~200目)阴离子交换树脂,以7mol/LHCl+0.001%H2O2、2mol/LHCl+0.001%H2O2、0.5mol/LHNO3作为淋洗液,分别在适当的体积接收淋洗液,可以有效地分离沉积物、植物和悬浮物等样品中的铜和锌。化学分离过程中Cu和Zn的回收率接近100%,同位素分馏在测试误差范围以内。将此方法应用于对红枫湖和阿哈湖水体悬浮物、植物和鱼类等样品中Cu、Zn的分离,经MC-ICP-MS测试后,准确获得了这些样品的Cu、Zn同位素组成。  相似文献   

13.
Combined determination of Cr and Ti isotopes of planetary materials offers a means with which to investigate their genetic relationship and the evolution of the protoplanetary disk. Here, we report the new sequential chemical separation procedure for combined Cr and Ti isotope ratio measurements. It comprises three steps: (a) Fe removal using AG1‐X8 anion exchange resin, (b) Ti separation using TODGA resin and (c) Cr separation using AG50W‐X8 cation exchange resin (with one additional step of Ti purification using AG1‐X8 anion exchange resin for samples having high Cr/Ti and Ca/Ti ratios). We applied the proposed procedure to terrestrial and meteorite samples with various compositions. Typical recovery rates of 90–100% were achieved with total procedural Cr and Ti blanks of 3–5 and 2–3 ng, respectively. We measured the Cr and Ti isotope compositions of the separated samples using thermal ionisation mass spectrometry and multiple collector‐inductively coupled plasma‐mass spectrometry, respectively. Our Cr and Ti isotope data were found to be consistent with those of previous studies of individual Cr and Ti isotopic compositions of the meteorites. These results demonstrate the capability of our separation method when applied to combined high‐precision Cr and Ti isotope analyses for single digests of planetary materials.  相似文献   

14.
稀土矿物的种类很多,有磷酸盐,氟碳酸盐,钛铌钽酸盐,硅酸盐及钛硅酸盐等。其中以稀土的磷酸盐和稀土的氟碳酸盐分布最广泛,其次如稀土的钛铌钽酸盐,在矿体也有较广泛的分布。上述矿物均为重要的稀  相似文献   

15.
We present a new procedure for the separation and purification of Cu and Zn from geological samples. Our procedure employed a single pass, triple‐stack column set‐up. The first column, filled with TRU resin (TrisKem International), quantitatively removed Fe and Ti from sample matrices. A second column, filled with pre‐filter resin (TrisKem International), removed organic compounds. Finally, a third column, filled with anion exchange resin (AG1‐X8, 200–400 mesh, Bio‐Rad), was used to separate Cu and Zn from the remaining matrix. Our procedure required about 50% less acid volume than previously reported methods for Cu and Zn separation, thereby minimising analytical blanks and column running times. Copper and Zn stable isotope ratios were determined by a Thermo Neptune Plus MC‐ICP‐MS using Zn and Cu external normalisation, respectively, in addition to sample‐standard bracketing to correct for instrumental mass bias. We explore the inter‐calibration of Cu and Zn isotope fractionation coefficients during analysis by measuring mixed Cu–Zn solutions with enhanced mass bias variation generated by varying sample gas flow rates. Our results demonstrate that this procedure is useful when variation in instrumental mass bias throughout analytical sequences is insufficient to inter‐calibrate Cu and Zn fractionation coefficients.  相似文献   

16.
High sensitivity and low detection limits would seem to make inductively coupled plasma-mass spectrometry (ICP-MS) an ideal analytical tool for determining low (sub-μg g-1) concentrations of the rare earth elements (REE), Y, Zr, Nb, Hf, Ta, Sn, W, Mo, Th, and U in most mafic materials (e.g. Hall and Plant 1992). However, the generally "sticky" nature exhibited by most of the high field strength elements (HFSEs: Zr, Nb, Hf, Ta, Th and U) as well as Sn, W and Mo can result in spurious results due to memory effects transmitted between unknowns and calibration samples. This, in turn, can seriously compromise the sensitivity, accuracy, and precision of ICP-MS analyses for these elements in geological materials. Data resulting from analyses with poor accuracy and precision can lead to erroneous interpretation and misleading petrogenetic modelling. To resolve this problem, we propose an effective wash protocol for these critical trace elements.  相似文献   

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