ICP-MS分析应用进展

对近几年来ICP-MS在环境、医学、食品、功能及其他领域方面的应用进行了简要概述。指出了该技术在分析应用中存在的不足,给出了可行性建议,展望了ICP-MS的发展前景。     

电感耦合等离子体质谱(ICP-MS)联用技术的应用及展望

总结了ICP-MS联用技术在国内外检测领域的最新应用,并就"分离器与ICP-MS"、"进样系统与ICP-MS"、"ICP-MS与其它仪器物理联用"等联用技术进行了分类、拓展和总结。ICP-MS联用技术的发展重点将倾向于提高分析精密度、复杂基体元素超痕量分析、同位素比值及形态研究领域,相关联用技术的国家标准或行业标准出台已迫在眉睫。     

电感耦合等离子体质谱分析

简要综述了我国学者近10年来在电感耦合等离子体质谱(ICP-MS)分析领域的研究工作.在ICP-MS新进样技术和ICP-MS生物分析方法学研究方面,我国科研人员开展了开拓性的研究工作,在元素形态分析和金属组学研究方面富有特色.ICP-MS仪器/部件的设计研制尚待加强;ICP-MS成像研究和在实际生命体系的应用有待进一步强化.     

电感耦合等离子体质谱技术在法庭科学中的研究和应用进展

电感耦合等离子体质谱法(inductively coupled plasma-mass spectrometry,ICP-MS)具有灵敏度高、干扰少、选择性好、适合进行超痕量多元素同时分析和同位素比值的测定等优点,在法庭科学中得到了广泛应用.综合归纳了ICP-MS技术在重金属及有害元素投(中)毒案件、食品药品环境分析、交通肇事及涉枪等案(事)件中重金属及微量元素分析中的应用.介绍了不同检材的样品前处理方法以及如何减少基体干扰,并且综述了优化ICP-MS仪器参数和碰撞反应池技术以消除质谱干扰,展望了ICP-MS在法庭科学中的应用.     

电感耦合等离子体质谱法在不同药典中的方法体系和在中药无机成分研究中的应用进展

为科学指导中药安全性标准的建立和合理评价中药的安全性和有效性,通过比较中国、美国及欧洲等药典电感耦合等离子体质谱法[ICP-MS,包括高效液相色谱(HPLC)-ICP-MS]通则方法及技术体系,综述了药典中ICP-MS的方法体系及在中药(动物药、植物药或矿物药)中重金属元素及有害元素、元素形态或价态检测中的技术规范和应用范围;通过相关文献整理,综述了ICP-MS在中药无机成分安全性评价及风险评估、无机元素谱及质量评价和有害元素形态及价态等方面的应用进展,并对ICP-MS新技术和方法在中药研究的应用前景进行了展望(引用文献57篇)。     

电感耦合等离子体质谱分析生物样品的研究进展

高灵敏准确地分析蛋白质、核酸、细胞等生物样品,有助于疾病的诊断与治疗。近年来,电感耦合等离子体质谱(ICP-MS)技术在生物样品分析中的应用受到广泛关注。由于ICP-MS具有高灵敏度、可多元素同时分析和快速定量分析等优点,非常适于分析生物样品。对于生物样品的分析,通常采用可稳定结合的外源性金属元素作为标记探针进行分析。本文首先评述了3种最常用的元素标记探针,即金属纳米粒子、金属螯合物和含金属的聚合物探针的研究进展,然后综述了近年来基于元素标记策略的ICP-MS在蛋白质、核酸(DNA、 RNA)和细胞分析方面的应用,最后对ICP-MS分析生物样品的研究进行了总结与展望。     

核酸工具酶辅助的金属稳定同位素标记方法在生物分析中的应用

本文主要概述了近年来核酸工具酶辅助的基于金属稳定同位素标记的电感耦合等离子体质谱(ICP-MS)检测方法在生物分析中的发展和应用,简要介绍了该方法在蛋白质、核酸及一些生物小分子检测中的应用。最后对核酸工具酶辅助的基于金属稳定同位素标记的电感耦合等离子体质谱(ICP-MS)检测方法的发展前景做了展望。     

激光烧蚀光谱-电感耦合等离子体质谱联用技术应用进展

激光烧蚀光谱（LAS）分析技术具有简便快速的特点,仪器设备简便,但对痕量元素分析能力不足。电感耦合等离子体质谱(ICP-MS)分析技术则具有灵敏度高和多元素及同位素分析能力,但对基体元素分析存在困难。将LAS和ICP-MS分析技术相结合构成LAS-ICP-MS联用分析技术,可相互弥补LAS和ICP-MS技术的缺陷。介绍了近10年来LAS-ICP-MS联用技术的应用进展及发展趋势,并详细阐述了近年来LA-ICP-MS分别在地质、矿冶、材料、环境监测以及其它分析领域的应用。     

ICP—MS在线定量分析气溶胶粒子的技术研究

对感应耦合等离子体质谱(ICP-MS)在线快速定量分析气溶胶粒子技术进行了研究.振荡床发生稀土气溶胶粒子,将ICP-MS测得的离子簇脉冲数浓度与凝结核粒子计数器的读数比较,得到ICP-MS对粒子数浓度的相对计数效率.结果表明,ICP-MS对粒子数浓度的计数效率接近1.用振动孔气溶胶发生器发生单分散的硝酸铽粒子,并将ICP-MS测得的粒子中铽的响应信号与气溶胶发生器的计算值比较,获得了ICP-MS质量探测效率与质量的关系.在粒子物理直径实验范围内(0.4 ～3 μm),ICP-MS探测到的离子数与粒子中Tb的质量呈线性关系,表明在该范围内探测效率与粒径无关.初步研究结果表明,用ICP-MS既可进行连续气溶胶粒子的化学定量分析,也可进行每秒10个单粒子的化学定量分析.ICP-MS在环境气溶胶在线快速分析,尤其是气溶胶粒子中难熔金属和超铀元素超痕量在线环境监测方面具有潜在的应用前景.     

电感耦合等离子体质谱(ICP-MS)法在我国矿物中“四稀”元素检测的应用

本文简要介绍了电感耦合等离子体质谱（ICP-MS）分析技术及特点,综述了近3年来在矿物中稀土稀有稀散和稀贵元素检测的应用情况。针对不同种类元素的分析,在样品处理和质谱干扰两方面简要提示了应注意的关键事项。并对现行或即将实施的矿石矿物ICP-MS检测标准进行了介绍。     

Applications of inductively coupled plasma mass spectrometry and laser ablation inductively coupled plasma mass spectrometry in materials science

Inductively coupled plasma mass spectrometry (ICP-MS) and laser ablation ICP-MS (LA-ICP-MS) have been applied as the most important inorganic mass spectrometric techniques having multielemental capability for the characterization of solid samples in materials science. ICP-MS is used for the sensitive determination of trace and ultratrace elements in digested solutions of solid samples or of process chemicals (ultrapure water, acids and organic solutions) for the semiconductor industry with detection limits down to sub-picogram per liter levels. Whereas ICP-MS on solid samples (e.g. high-purity ceramics) sometimes requires time-consuming sample preparation for its application in materials science, and the risk of contamination is a serious drawback, a fast, direct determination of trace elements in solid materials without any sample preparation by LA-ICP-MS is possible. The detection limits for the direct analysis of solid samples by LA-ICP-MS have been determined for many elements down to the nanogram per gram range. A deterioration of detection limits was observed for elements where interferences with polyatomic ions occur. The inherent interference problem can often be solved by applying a double-focusing sector field mass spectrometer at higher mass resolution or by collision-induced reactions of polyatomic ions with a collision gas using an ICP-MS fitted with collision cell. The main problem of LA-ICP-MS is quantification if no suitable standard reference materials with a similar matrix composition are available. The calibration problem in LA-ICP-MS can be solved using on-line solution-based calibration, and different procedures, such as external calibration and standard addition, have been discussed with respect to their application in materials science. The application of isotope dilution in solution-based calibration for trace metal determination in small amounts of noble metals has been developed as a new calibration strategy. This review discusses new analytical developments and possible applications of ICP-MS and LA-ICP-MS for the quantitative determination of trace elements and in surface analysis for materials science.     

Environmental application of elemental speciation analysis based on liquid or gas chromatography hyphenated to inductively coupled plasma mass spectrometry—A review

In recent years the number of environmental applications of elemental speciation analysis using inductively coupled plasma mass spectrometry (ICP-MS) as detector has increased significantly. The analytical characteristics, such as extremely low detection limits (LOD) for almost all elements, the wide linear range, the possibility for multi-elemental analysis and the possibility to apply isotope dilution mass spectrometry (IDMS) make ICP-MS an attractive tool for elemental speciation analysis. Two methodological approaches, i.e. the combination of ICP-MS with high performance liquid chromatography (HPLC) and gas chromatography (GC), dominate the field. Besides the investigation of metals and metalloids and their species (e.g. Sn, Hg, As), representing “classic” elements in environmental science, more recently other elements (e.g. P, S, Br, I) amenable to ICP-MS determination were addressed. In addition, the introduction of isotope dilution analysis and the development of isotopically labeled species-specific standards have contributed to the success of ICP-MS in the field. The aim of this review is to summarize these developments and to highlight recent trends in the environmental application of ICP-MS coupled to GC and HPLC.     

Inductively coupled plasma mass spectrometry and electrospray mass spectrometry for speciation analysis: applications and instrumentation

To gain an understanding of the function, toxicity and distribution of trace elements, it is necessary to determine not only the presence and concentration of the elements of interest, but also their speciation, by identifying and characterizing the compounds within which each is present. For sensitive detection of compounds containing elements of interest, inductively coupled plasma mass spectrometry (ICP-MS) is a popular method, and for identification of compounds via determination of molecular weight, electrospray ionization mass spectrometry (ESI-MS) is gaining increasing use. ICP-MS and ESI-MS, usually coupled to a separation technique such as chromatography or capillary electrophoresis, have already been applied to a large number of research problems in such diverse fields as environmental chemistry, nutritional science, and bioinorganic chemistry, but a great deal of work remains to be completed. Current areas of research to which ICP-MS and ESI-MS have been applied are discussed, and the existing instrumentation used to solve speciation problems is described.     

电感耦合等离子体质谱技术在环境领域的应用

综述电感耦合等离子体质谱技术在环境监测和环境科学研究领域的应用.介绍了电感耦合等离子体质谱技术在环境监测中的分析优势,环境研究领域中稳定同位素比值测定技术及其与色谱、激光烧蚀、流动注射技术联用分析技术应用的进展.     

古人类骨骼中微量元素的分析及其与古代食谱的关联

采用等离子体质谱(ICP-Ms)法对三峡地区及长江下游地区出土的古墓中的人体骨骼中的微量元素Zn、Sr、Ba、Ca进行了分析，并与原子吸收光谱(AAS)对照，结果表明：ICP-MS是骨化学微量元素分析很好的方法，它相对FAAS，具有灵敏度高，检出限低，可快速进行多元素检测等优点，对溶液中元素的检出限可达到ng/L数量级，对元素的高含量和低含量都能进行准确测量。本实验以Zn、Sr、Ba、Ca为指示剂，根据其测量结果，还对上述两地区的古人类食谱进行了初步探讨。     

Characterization of sealed radioactive sources: uncertainty analysis to improve detection methods

A radioactive ¹³⁷Cs source has been analyzed for the radioactive parent ¹³⁷Cs and stable decay daughter ¹³⁷Ba. The ratio of the daughter to parent atoms is used to estimate the date when Cs was purified prior to source encapsulation (an “age” since purification). The isotopes were analyzed by inductively coupled plasma mass spectrometry (ICP-MS) after chemical separation. In addition, Ba was analyzed by isotope dilution ICP-MS (ID-ICP-MS). A detailed error analysis of the mass spectrometric work has been undertaken to identify areas of improvement, as well as quantifying the effect the errors have on the “age” determined. This paper reports an uncertainty analysis to identifying areas of improvement and alternative techniques that may reduce the uncertainties. In particular, work on isotope dilution using ICP-MS for the “age” determination of sealed sources is presented. The results will be compared to the original work done using external standards to calibrate the ICP-MS instrument.     

The Application of ICP-MS for Non-ferrous Metals Analysis

This paper reviews the current application of ICP-MS in non-ferrous metals analysis. Many analytical techniques that deal with the samples preparation,samples introduction, spectroscopic matrix interference, calibration and data treatment for non-ferrous metals analysis of ICP-MS are discussed. More and more fields such as geological,environment, biology and industry adopt ICP-MS as main analytical means for non-ferrous metals.